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Co-Authors
- T. Bhattacharyya
- D. Sarkar
- S. K. Ray
- P. Chandran
- D. K. Pal
- D. K. Mandal
- J. Prasad
- G. S. Sidhu
- K. M. Nair
- A. K. Sahoo
- T. H. Das
- R. S. Singh
- C. Mandal
- R. Srivastava
- T. K. Sen
- S. Chatterji
- N. G. Patil
- G. P. Obireddy
- S. K. Mahapatra
- K. Das
- A. K. Singh
- S. K. Reza
- D. Dutta
- S. Srinivas
- P. Tiwary
- K. Karthikeyan
- M. V. Venugopalan
- K. Velmourougane
- A. Srivastava
- Mausumi Raychaudhuri
- D. K. Kundu
- K. G. Mandal
- G. Kar
- S. L. Durge
- G. K. Kamble
- M. S. Gaikwad
- A. M. Nimkar
- S. V. Bobade
- S. G. Anantwar
- S. Patil
- V. T. Sahu
- K. M. Gaikwad
- H. Bhondwe
- S. S. Dohtre
- S. Gharami
- S. G. Khapekar
- A. Koyal
- Sujatha
- B. M. N. Reddy
- P. Sreekumar
- D. P. Dutta
- L. Gogoi
- V. N. Parhad
- A. S. Halder
- R. Basu
- R. Singh
- B. L. Jat
- D. L. Oad
- N. R. Ola
- K. Wadhai
- M. Lokhande
- V. T. Dongare
- A. Hukare
- N. Bansod
- A. Kolhe
- J. Khuspure
- H. Kuchankar
- D. Balbuddhe
- S. Sheikh
- B. P. Sunitha
- B. Mohanty
- D. Hazarika
- S. Majumdar
- R. S. Garhwal
- A. Sahu
- S. Mahapatra
- S. Puspamitra
- A. Kumar
- N. Gautam
- B. A. Telpande
- A. M. Nimje
- C. Likhar
- S. Thakre
- A. P. Nagar
- J. A. Dijkshoorn
- N. H. Batjes
- P. S. Bindraban
- S. V. Patil
- K. Sujatha
- A. H. Kolhe
- M. Raychaudhuri
- Ashwani Kumar
- S. Raychaudhuri
- S. K. Singh
- Jagdish Prasad
- Alok Kumar Srivastava
- Kulandaivelu Velmourougane
- Ashutosh Kumar
- K. K. Bandhopadhyay
- K. K. Mandal
- K. R. Reddy
- N. G. Bansod
- D. Dasgupta
- K. Rajan
- A. Natarajan
- V. Kasthuri Thilagam
- D. Dinesh
- N. M. Alam
- O. P. S. Khola
- R. C. Gowda
- S. Sheela Rani
- D. K. Sandeep Kumar
- C. N. Nalina
- C. S. Sathish Gowda
- L. Asha
- Sidharam Patil
- C. A. Srinivasamurthy
- M. Lalitha
- Shivanand
- S. C. Ramesh Kumar
- Arti Koyal
- S. Parvathy
- C. Thamban
- Jeena Mathew
- K. P. Chandran
- Abdul Haris
- V. Krishnakumar
- V. Srinivasan
- Jessy
- James Jacob
- J. S. Nagaraj
- Maria Violet D’Souza
- Y. Raghuramulu
- R. Hegde
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Anil Kumar, K. S.
- Georeferenced Soil Information System: Assessment of Database
Abstract Views :362 |
PDF Views:172
Authors
T. Bhattacharyya
1,
D. Sarkar
1,
S. K. Ray
1,
P. Chandran
1,
D. K. Pal
2,
D. K. Mandal
1,
J. Prasad
1,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
C. Mandal
1,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
N. G. Patil
1,
G. P. Obireddy
1,
S. K. Mahapatra
3,
K. S. Anil Kumar
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
S. Srinivas
4,
P. Tiwary
1,
K. Karthikeyan
1,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
V. T. Sahu
1,
K. M. Gaikwad
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1,
A. P. Nagar
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1400-1419Abstract
Land-use planning is a decision-making process that facilitates the allocation of land to different uses that provide optimal and sustainable benefit. As land-use is shaped by society-nature interaction, in land-use planning different components/facets play a significant role involving soil, water, climate, animal (ruminant/ non-ruminant) and others, including forestry and the environment needed for survival of mankind. At times these components are moderated by human interference. Thus land-use planning being a dynamic phenomenon is not guided by a single factor, but by a complex system working simultaneously,which largely affects the sustainability. To address such issues a National Agricultural Innovation Project (NAIP) on 'Georeferenced soil information system for land-use planning and monitoring soil and land quality for agriculture' was undertaken to develop threshold values of land quality parameters for land-use planning through quantitative land evaluation and crop modelling for dominant cropping systems in major agro-ecological sub-regions (AESRs) representing rice-wheat cropping system in the Indo-Gangetic Plains (IGP) and deep-ischolar_mained crops in the black soil regions (BSR). To assess the impact of landuse change, threshold land quality indicator values are used. A modified AESR map for agricultural landuse planning is generated for effective land-use planning.Keywords
Agriculture, Georeferenced Soil Information System, Land-Use Planning, Spatial Database.- Development of Soil and Terrain Digital Database for Major Food-Growing Regions of India for Resource Planning
Abstract Views :370 |
PDF Views:137
Authors
P. Chandran
1,
P. Tiwary
1,
T. Bhattacharyya
1,
C. Mandal
1,
J. Prasad
1,
S. K. Ray
1,
D. Sarkar
1,
D. K. Pal
2,
D. K. Mandal
1,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
N. G. Patil
1,
G. P. Obireddy
1,
S. K. Mahapatra
3,
K. S. Anil Kumar
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
S. Srinivas
4,
K. Karthikeyan
1,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
J. A. Dijkshoorn
11,
N. H. Batjes
11,
P. S. Bindraban
11,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. V. Patil
1,
K. M. Gaikwad
1,
V. T. Sahu
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
K. Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. H. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi, 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
11 ISRIC, Wageningen, NL
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi, 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
11 ISRIC, Wageningen, NL
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1420-1430Abstract
Soil information system in SOTER (soil and terrain digital database) framework is developed for the Indo- Gangetic Plains (IGP) and black soil regions (BSR) of India with the help of information from 842 georeferenced soil profiles including morphological, physical and chemical properties of soils in addition to the site characteristics and climatic information. The database has information from 82 climatic stations that can be linked with the other datasets. The information from this organized database can be easily retrieved for use and is compatible with the global database. The database can be updated with recent and relevant data as and when they are available. The database has many applications such as inputs for refinement of agroecological regions and sub-regions, studies on carbon sequestration, land evaluation and land (crop) planning, soil erosion, soil quality, carbon and crop modelling and other climate change related research. This warehouse of information in a structured framework can be used as a data bank for posterity.Keywords
Black Soil Region, Database, Indo-Gangetic Plains, SOTER.- Soil Information System: Use and Potentials in Humid and Semi-Arid Tropics
Abstract Views :414 |
PDF Views:147
Authors
T. Bhattacharyya
1,
D. Sarkar
1,
S. K. Ray
1,
P. Chandran
1,
D. K. Pal
1,
D. K. Mandal
1,
J. Prasad
1,
G. S. Sidhu
2,
K. M. Nair
3,
A. K. Sahoo
4,
T. H. Das
4,
R. S. Singh
5,
C. Mandal
1,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
N. G. Patil
1,
G. P. Obireddy
1,
S. K. Mahapatra
2,
K. S. Anil Kumar
3,
K. Das
4,
A. K. Singh
5,
S. K. Reza
6,
D. Dutta
7,
S. Srinivas
3,
P. Tiwary
1,
K. Karthikeyan
1,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
V. T. Sahu
1,
K. M. Gaikwad
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
3,
Sujatha
3,
B. M. N. Reddy
3,
P. Sreekumar
3,
D. P. Dutta
6,
L. Gogoi
6,
V. N. Parhad
1,
A. S. Halder
4,
R. Basu
4,
R. Singh
5,
B. L. Jat
5,
D. L. Oad
5,
N. R. Ola
5,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
3,
B. Mohanty
2,
D. Hazarika
6,
S. Majumdar
4,
R. S. Garhwal
5,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1550-1564Abstract
The articles presented in this special section emanated from the researches of consortium members of the National Agricultural Innovative Project (NAIP, Component 4) of the Indian Council of Agricultural Research (ICAR), New Delhi. These researches have helped develop a soil information system (SIS). In view of the changing scenario all over the world, the need of the hour is to get assistance from a host of researchers specialized in soils, crops, geology, geography and information technology to make proper use of the datasets. Equipped with the essential knowledge of data storage and retrieval for management recommendations, these experts should be able to address the issues of land degradation, biodiversity, food security, climate change and ultimately arrive at an appropriate agricultural land-use planning. Moreover, as the natural resource information is an essential prerequisite for monitoring and predicting global environmental change with special reference to climate and land use options, the SIS needs to be a dynamic exercise to accommodate temporal datasets, so that subsequently it should result in the evolution of the soil information technology. The database developed through this NAIP would serve as an example of the usefulness of the Consortium and the research initiative of ICAR involving experts from different fields to find out the potentials of the soils of humid and semi-arid bioclimatic systems of the country.Keywords
Agricultural Land-Use Planning, Humid and Semi-Arid Tropics, Soil Information System, Soil Information Technology, Temporal Datasets.- Pedotransfer Functions: A Tool for Estimating Hydraulic Properties of Two Major Soil Types of India
Abstract Views :324 |
PDF Views:136
Authors
P. Tiwary
1,
N. G. Patil
1,
T. Bhattacharyya
1,
P. Chandran
1,
S. K. Ray
1,
K. Karthikeyan
1,
D. Sarkar
1,
D. K. Pal
2,
J. Prasad
1,
C. Mandal
1,
D. K. Mandal
1,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
G. P. Obireddy
1,
S. K. Mahapatra
3,
K. S. Anil Kumar
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
S. Srinivas
4,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
M. Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
K. M. Gaikwad
1,
V. T. Sahu
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
K. Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. H. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1431-1439Abstract
In recent years, georeferenced soil information system has gained significance in agricultural land-use planning and monitoring the changes in soil properties/ soil quality induced by land-use changes. The spatiotemporal information on saturated hydraulic conductivity (sHC) and soil water retention-release behaviour is essential for proper crop and land-use planning. The sHC greatly influences the drainage process and soil water retention-release behaviour, ultimately affecting the crop growth and yield. However, sHC and water retention are not measured in a routine soil survey and are generally estimated from easily measurable soil parameters through pedotransfer functions (PTFs). In the present study, PTFs for sHC and water retention were developed separately for the soils of two food-growing zones of India (the Indo-Gangetic Plains (IGP) and the black soil region (BSR)). For the IGP soils, sHC is affected by the increased subsoil bulk density due to intensive cultivation. In BSR, presence of Na+ and Mg++ ions affects the drainage and water retention of the soils. Therefore, these soil parameters were considered while developing the PTFs using stepwise regression technique in SPSS. The validation of PTFs was found to be satisfactory with low RMSE values and high model efficiency.Keywords
Model Efficiency, Pedotransfer Functions, Regression Analysis, Saturated Hydraulic Conductivity, Water Retention.- Natural Resources of the Indo-Gangetic Plains: A Land-Use Planning Perspective
Abstract Views :354 |
PDF Views:142
Authors
N. G. Patil
1,
P. Tiwary
1,
T. Bhattacharyya
1,
P. Chandran
1,
D. Sarkar
1,
D. K. Pal
2,
D. K. Mandal
1,
J. Prasad
1,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
C. Mandal
1,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
S. K. Ray
1,
G. P. Obireddy
1,
S. K. Mahapatra
3,
K. S. Anil Kumar
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
S. Srinivas
4,
K. Karthikeyan
4,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
M. Raychaudhuri
10,
D. K. Kundu
11,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
K. M. Gaikwad
1,
V. T. Sahu
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
K. Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. H. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 440 010, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
11 Directorate of Water Management, Bhubaneswar 751 023
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 440 010, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
11 Directorate of Water Management, Bhubaneswar 751 023
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1537-1549Abstract
Current status of land/soil resources of the Indo- Gangetic Plains (IGP) is analysed to highlight the issues that need to be tackled in near future for sustained agricultural productivity. There are intraregional variations in soil properties, cropping systems; status of land usage, groundwater utilization and irrigation development which vary across the subregions besides demographies. Framework for land use policy is suggested that includes acquisition of farm-level data, detailing capability of each unit to support a chosen land use, assess infrastructural support required to meet the projected challenges and finally develop skilled manpower to effectively monitor the dynamics of land use changes.Keywords
Agricultural Productivity, Land Use Planning, Natural Resources, Soil Properties and Soil Management.- Soil Physical Quality of the Indo-Gangetic Plains and Black Soil Region
Abstract Views :370 |
PDF Views:187
Authors
Mausumi Raychaudhuri
1,
D. K. Kundu
1,
Ashwani Kumar
1,
K. G. Mandal
1,
S. Raychaudhuri
1,
G. Kar
1,
T. Bhattacharyya
2,
D. Sarkar
3,
D. K. Pal
4,
D. K. Mandal
3,
J. Prasad
3,
G. S. Sidhu
5,
K. M. Nair
6,
A. K. Sahoo
7,
T. H. Das
7,
R. S. Singh
8,
C. Mandal
3,
R. Srivastava
3,
T. K. Sen
3,
S. Chatterji
3,
P. Chandran
3,
S. K. Ray
3,
N. G. Patil
3,
G. P. Obireddy
3,
S. K. Mahapatra
5,
K. S. Anil Kumar
6,
K. Das
5,
A. K. Singh
8,
S. K. Reza
9,
D. Dutta
7,
S. Srinivas
6,
P. Tiwary
3,
K. Karthikeyan
3,
M. V. Venugopalan
9,
K. Velmourougane
9,
A. Srivastava
10,
S. L. Durge
3,
S. Puspamitra
1,
S. Mahapatra
1,
G. K. Kamble
3,
M. S. Gaikwad
3,
A. M. Nimkar
3,
S. V. Bobade
3,
S. G. Anantwar
3,
S. Patil
3,
K. M. Gaikwad
3,
V. T. Sahu
3,
H. Bhondwe
3,
S. S. Dohtre
3,
S. Gharami
3,
S. G. Khapekar
3,
A. Koyal
5,
Sujatha
5,
B. M. N. Reddy
5,
P. Sreekumar
5,
D. P. Dutta
9,
L. Gogoi
9,
V. N. Parhad
1,
A. S. Halder
7,
R. Basu
7,
R. Singh
7,
B. L. Jat
7,
D. L. Oad
7,
N. R. Ola
7,
K. Wadhai
3,
M. Lokhande
3,
V. T. Dongare
3,
A. Hukare
3,
N. Bansod
3,
A. Kolhe
3,
J. Khuspure
3,
H. Kuchankar
3,
D. Balbuddhe
3,
S. Sheikh
3,
B. P. Sunitha
6,
B. Mohanty
5,
D. Hazarika
9,
S. Majumdar
7,
R. S. Garhwal
8,
A. Sahu
11,
A. Kumar
10,
N. Gautam
3,
B. A. Telpande
3,
A. M. Nimje
3,
C. Likhar
3,
S. Thakre
3
Affiliations
1 Directorate of Water Management, Bhubaneswar, Odisha 751 023, IN
2 2Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Central Institute for Cotton Research, Nagpur 440 010, IN
1 Directorate of Water Management, Bhubaneswar, Odisha 751 023, IN
2 2Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Central Institute for Cotton Research, Nagpur 440 010, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1440-1451Abstract
Understanding the physical quality of soil that influences its hydraulic behaviour helps in formulating appropriate water management strategies for sustainable crop production. Saturated hydraulic conductivity (Ks) is a key factor governing the hydraulic properties of soils. Ks can be estimated through various techniques. In the present article we have developed and validated the regression models to predict Ks of the soils of the Indo- Gangetic Plains (IGP) and the black soil regions (BSR) under different bioclimatic systems. While particle size distribution was found to be a key factor to predict Ks of the BSR soils, organic carbon was found useful for the IGP soils. Moreover, the models for Ks of both soils were strengthened by putting in CaCO3 and exchangeable sodium percentage content. It seems there is ample scope to study the interaction process for revising Ks to desired levels through management practices in these two important food-growing zones. An index of soil physical quality, derived from the inflection points of the soil moisture characteristic curves could well explain the impact of management practices on soil physical quality.Keywords
Index, Management, Saturated Hydraulic Conductivity, Soil Physical Quality.- Impacts of Bioclimates, Cropping Systems, Land Use and Management on the Cultural Microbial Population in Black Soil Regions of India
Abstract Views :349 |
PDF Views:121
Authors
K. Velmourougane
1,
M. V. Venugopalan
1,
T. Bhattacharyya
2,
D. Sarkar
2,
S. K. Ray
2,
P. Chandran
2,
D. K. Pal
3,
D. K. Mandal
2,
J. Prasad
2,
G. S. Sidhu
4,
K. M. Nair
5,
A. K. Sahoo
6,
K. S. Anil Kumar
5,
A. Srivastava
7,
T. H. Das
6,
R. S. Singh
8,
C. Mandal
2,
R. Srivastava
2,
T. K. Sen
2,
S. Chatterji
2,
N. G. Patil
2,
G. P. Obireddy
2,
S. K. Mahapatra
4,
K. Das
6,
S. K. Singh
6,
S. K. Reza
9,
D. Dutta
6,
S. Srinivas
5,
P. Tiwary
2,
K. Karthikeyan
2,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
2,
G. K. Kamble
2,
M. S. Gaikwad
2,
A. M. Nimkar
2,
S. V. Bobade
2,
S. G. Anantwar
2,
S. Patil
2,
M. S. Gaikwad
2,
V. T. Sahu
2,
H. Bhondwe
2,
S. S. Dohtre
2,
S. Gharami
2,
S. G. Khapekar
2,
A. Koyal
5,
Sujatha
5,
B. M. N. Reddy
5,
P. Sreekumar
5,
D. P. Dutta
9,
L. Gogoi
9,
V. N. Parhad
2,
A. S. Halder
6,
R. Basu
6,
R. Singh
8,
B. L. Jat
8,
D. L. Oad
8,
N. R. Ola
8,
A. Sahu
2,
K. Wadhai
2,
M. Lokhande
2,
V. T. Dongare
2,
A. Hukare
2,
N. Bansod
2,
A. Kolhe
2,
J. Khuspure
2,
H. Kuchankar
2,
D. Balbuddhe
2,
S. Sheikh
2,
B. P. Sunitha
5,
B. Mohanty
4,
D. Hazarika
9,
S. Majumdar
6,
R. S. Garhwal
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
7,
N. Gautam
2,
B. A. Telpande
2,
A. M. Nimje
2,
C. Likhar
2,
S. Thakre
2
Affiliations
1 Central Institute for Cotton Research, Nagpur 440 010, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
7 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Central Institute for Cotton Research, Nagpur 440 010, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
7 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1452-1463Abstract
The present study documents the biological properties of the black soil region (BSR) of India in terms of culturable microbial population. Besides surface microbial population, subsurface population of individual soil horizons is described to improve the soil information system. An effort has been made to study the depth-wise distribution and factors (bioclimates, cropping systems, land use, management practices and soil properties) influencing the microbial population in the soils of the selected benchmark spots representing different agro-ecological sub-regions of BSR. The microbial population declined with depth and maximum activity was recorded within 0-30 cm soil depth. The average microbial population (log10 cfu g-1) in different bioclimates is in decreasing order of SHm > SHd > Sad > arid. Within cropping systems, legumebased system recorded higher microbial population (6.12 log10 cfu g-1) followed by cereal-based system (6.09 log10 cfu g-1). The mean microbial population in different cropping systems in decreasing order is legume > cereal > sugarcane > cotton. Significantly higher (P < 0.05) microbial population has been recorded in high management (6.20 log10 cfu g-1) and irrigated agrosystems (6.33 log10 cfu g-1) compared to low management (6.12 log10 cfu g-1) and rainfed agrosystems (6.17 log10 cfu g-1). The pooled analysis of data inclusive of bioclimates, cropping systems, land use, management practices, and edaphic factors indicates that microbial population is positively influenced by clay, fine clay, water content, electrical conductivity, organic carbon, cation exchange capacity and base saturation, whereas bulk density, pH, calcium carbonate and exchangeable magnesium percentage have a negative effect on the microbial population.Keywords
Agro-Ecological Sub-Regions, Benchmark Spots, Black Soil Regions, Principal Component Analysis, Soil Microbial Population.- Revisiting Agro-Ecological Sub-Regions of India - A Case Study of Two Major Food Production Zones
Abstract Views :289 |
PDF Views:161
Authors
C. Mandal
1,
D. K. Mandal
1,
T. Bhattacharyya
2,
D. Sarkar
2,
D. K. Pal
2,
Jagdish Prasad
2,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
6,
R. S. Singh
7,
R. Srivastava
2,
T. K. Sen
2,
S. Chatterji
2,
P. Chandran
2,
S. K. Ray
2,
N. G. Patil
2,
G. P. Obireddy
2,
S. K. Mahapatra
6,
K. S. Anil Kumar
4,
K. Das
6,
A. K. Singh
7,
S. K. Reza
8,
D. Dutta
6,
S. Srinivas
4,
P. Tiwary
2,
K. Karthikeyan
2,
M. V. Venugopalan
9,
A. Srivastava
10,
Mausumi Raychaudhuri
11,
D. K. Kundu
11,
K. G. Mandal
11,
G. Kar
11,
S. L. Durge
2,
G. K. Kamble
2,
M. S. Gaikwad
2,
A. M. Nimkar
2,
S. V. Bobade
2,
S. G. Anantwar
2,
S. Patil
2,
K. M. Gaikwad
2,
A. M. Nimkar
2,
S. V. Bobade
2,
S. G. Anantwar
2,
S. Patil
2,
K. M. Gaikwad
2,
V. T. Sahu
2,
H. Bhondwe
2,
S. S. Dohtre
2,
S. Gharami
2,
S. G. Khapekar
2,
A. Koyal
4,
Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
8,
L. Gogoi
12,
V. N. Parhad
2,
A. S. Halder
6,
R. Basu
6,
R. Singh
7,
B. L. Jat
13,
D. L. Oad
7,
N. R. Ola
7,
K. Wadhai
2,
M. Lokhande
2,
V. T. Dongare
2,
A. Hukare
2,
N. Bansod
2,
A. Kolhe
2,
J. Khuspure
2,
H. Kuchankar
2,
D. Balbuddhe
2,
S. Sheikh
2,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
8,
S. Majumdar
6,
R. S. Garhwal
7,
A. Sahu
9,
S. Mahapatra
11,
S. Puspamitra
11,
A. Kumar
10,
N. Gautam
2,
B. A. Telpande
2,
A. M. Nimje
2,
C. Likhar
2,
S. Thakre
2
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 03, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
8 National Bureau of Soil Survey and Land Use Planning, Regional Centre, Jorhat 785 004, IN
9 Central Institute for Cotton Research, Nagpur 440 010, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
12 National Bureau of Soil Survey and Land Use Planning, Regional Centre, Jorhat 785 004
13 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 03, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
8 National Bureau of Soil Survey and Land Use Planning, Regional Centre, Jorhat 785 004, IN
9 Central Institute for Cotton Research, Nagpur 440 010, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
12 National Bureau of Soil Survey and Land Use Planning, Regional Centre, Jorhat 785 004
13 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1519-1536Abstract
The sustenance of food and nutritional security are the major challenges of the 21st century. The domestic food production needs to increase per annum at the rate of 2% for cereals and 0.6% for oilseeds and pulses to meet the demand by 2030. The Indo-Gangetic Plains (IGP) and the black soil regions (BSR) are the two major food production zones of the country. Since irrigation potential is limited and expansion of irrigated area is tardy, rainfed agriculture holds promise to satisfy future food needs. Frontline demonstrations of these two regions have shown that there is a large gap at the farmers' and achievable levels of yields. This gap can be filled by adopting scientific approach of managing the natural resources. There is tremendous pressure of biotic and abiotic stresses hindering the crop production and that warrants for a systematic appraisal of natural resources. The National Bureau of Soil Survey and Land Use Planning (NBSS&LUP) under the Indian Council of Agricultural Research (ICAR) divided the country into 60 agro-ecological sub-regions (AESRs) in 1994 by superimposing maps on natural resources like soils, climate and length of growing period (LGP) for crops and other associated parameters. With the passage of nearly two decades and the advent of modern facilities of database management and improved knowledge base on natural resources, a need was felt to revise the existing AESR map to reach near the ground reality of crop performance. The new database stored in soil and terrain digital database (SOTER) has helped in modifying the AESR delineations of the BSR (76.4 m ha) and the IGP (52.01 m ha). The estimated available water content, saturated hydraulic conductivity and use of pedo-transfer functions in assessing the drainage conditions and soil quality have helped in computing with improved precision the LGP, and revise the earlier AESRs in BSR and IGP areas. This innovative exercise will be useful for the future AESR-based agricultural land use planning.Keywords
Agro-Ecological Sub-Regions, Food Production Zones, Land-Use Planning, Length of Growing Period.- Impacts of Agro-Climates and Land Use Systems on Culturable Microbial Population in Soils of the Indo-Gangetic Plains, India
Abstract Views :361 |
PDF Views:152
Authors
Alok Kumar Srivastava
1,
Kulandaivelu Velmourougane
2,
T. Bhattacharyya
3,
D. Sarkar
3,
D. K. Pal
4,
J. Prasad
4,
G. S. Sidhu
5,
K. M. Nair
6,
A. K. Sahoo
7,
T. H. Das
7,
R. S. Singh
8,
R. Srivastava
3,
T. K. Sen
3,
S. Chatterji
3,
P. Chandran
3,
S. K. Ray
3,
N. G. Patil
3,
G. P. Obireddy
3,
S. K. Mahapatra
5,
K. S. Anil Kumar
6,
K. Das
7,
A. K. Singh
8,
S. K. Reza
3,
D. Dutta
7,
C. Mandal
3,
D. K. Mandal
3,
S. Srinivas
3,
P. Tiwary
3,
K. Karthikeyan
3,
M. V. Venugopalan
2,
Mausumi Raychaudhuri
9,
D. K. Kundu
9,
K. G. Mandal
9,
Ashutosh Kumar
1,
G. Kar
9,
S. L. Durge
3,
G. K. Kamble
3,
M. S. Gaikwad
3,
A. M. Nimkar
3,
S. V. Bobade
3,
S. G. Anantwar
3,
S. Patil
3,
K. M. Gaikwad
3,
V. T. Sahu
3,
H. Bhondwe
3,
S. S. Dohtre
3,
S. Gharami
3,
S. G. Khapekar
3,
A. Koyal
6,
Sujatha
6,
B. M. N. Reddy
6,
P. Sreekumar
6,
D. P. Dutta
10,
L. Gogoi
10,
V. N. Parhad
3,
A. S. Halder
7,
R. Basu
7,
R. Singh
8,
B. L. Jat
8,
D. L. Oad
8,
N. R. Ola
8,
K. Wadhai
3,
M. Lokhande
3,
V. T. Dongare
3,
A. Hukare
3,
N. Bansod
3,
A. Kolhe
3,
J. Khuspure
3,
H. Kuchankar
3,
D. Balbuddhe
3,
S. Sheikh
3,
B. P. Sunitha
6,
B. Mohanty
5,
D. Hazarika
9,
S. Majumdar
7,
R. S. Garhwal
8,
A. Sahu
2,
S. Mahapatra
10,
S. Puspamitra
10,
N. Gautam
3,
B. A. Telpande
3,
A. M. Nimje
3,
C. Likhar
3,
S. Thakre
3
Affiliations
1 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
2 Central Institute for Cotton Research, Nagpur 440 010, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Directorate of Water Management, Bhubaneswar 751 023, IN
10 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
1 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
2 Central Institute for Cotton Research, Nagpur 440 010, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Directorate of Water Management, Bhubaneswar 751 023, IN
10 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1464-1469Abstract
Comprehensive reports on land-use changes and their impact on soil biological properties, specifically microbial population in the Indo-Gangetic Plains (IGP) of India, are lacking. Since IGP is the most fertile land, data on microbial population of IGP may contribute towards the evaluation of various soil quality parameters, disease suppression, organic matter decomposition, plant growth promotion and soil management pattern. To enhance our knowledge on culturable microbial populations in different soil horizons of the agro-ecological sub-regions (AESRs) in the IGP, a study has been undertaken to collect soil samples from the established benchmark (BM) spots of these plains with an objective to investigate the impacts of bioclimates, soil depth, cropping systems, land use systems and management practices on the distribution of culturable microbial population. Bacterial : fungal ratios are significantly different across the land use types. The bacterial and fungal populations are strongly and negatively correlated with soil depth and maximum microbial population (40%) exists in the surface horizon (0-30 cm) than in the subsurface horizon (121-150 cm). Generally, bacterial populations are higher than actinomycetes and fungal populations in all soil profiles of the IGP. Approximately 10% decrease in Shannon diversity index has been observed with increase of 30 cm depth and 89% fall between surface and subsurface profiles. Non-significant difference in microbial population (P < 0.05) is noticed across the management and land use systems. Sub-humid (moist) bioclimatic system recorded higher microbial population than sub-humid (dry) and semi-arid bioclimatic systems. Legume-based cropping system has higher microbial population than cereal or vegetable-based cropping.Keywords
Agro-Ecosystems, Microbial Population, Land Use Type, Soil Depth.- InfoCrop-Cotton Simulation Model - Its Application in Land Quality Assessment for Cotton Cultivation
Abstract Views :307 |
PDF Views:131
Authors
M. V. Venugopalan
1,
P. Tiwary
2,
S. K. Ray
2,
S. Chatterji
2,
K. Velmourougane
1,
T. Bhattacharyya
2,
K. K. Bandhopadhyay
3,
D. Sarkar
2,
P. Chandran
2,
D. K. Pal
4,
D. K. Mandal
2,
J. Prasad
2,
G. S. Sidhu
5,
K. M. Nair
6,
A. K. Sahoo
7,
K. S. Anil Kumar
6,
A. Srivastava
8,
T. H. Das
7,
R. S. Singh
9,
C. Mandal
2,
R. Srivastava
2,
T. K. Sen
2,
N. G. Patil
2,
G. P. Obireddy
2,
S. K. Mahapatra
5,
K. Das
7,
S. K. Singh
7,
S. K. Reza
10,
D. Dutta
7,
S. Srinivas
6,
K. Karthikeyan
2,
Mausumi Raychaudhuri
11,
D. K. Kundu
11,
K. K. Mandal
11,
G. Kar
11,
S. L. Durge
2,
G. K. Kamble
2,
M. S. Gaikwad
2,
A. M. Nimkar
2,
S. V. Bobade
2,
S. G. Anantwar
2,
S. Patil
12,
M. S. Gaikwad
2,
V. T. Sahu
2,
H. Bhondwe
2,
S. S. Dohtre
2,
S. Gharami
2,
S. G. Khapekar
2,
A. Koyal
6,
Sujatha
6,
B. M. N. Reddy
6,
P. Sreekumar
6,
D. P. Dutta
10,
L. Gogoi
10,
V. N. Parhad
2,
A. S. Halder
13,
R. Basu
7,
R. Singh
9,
B. L. Jat
9,
D. L. Oad
9,
N. R. Ola
9,
A. Sahu
1,
K. Wadhai
2,
M. Lokhande
2,
V. T. Dongare
2,
A. Hukare
2,
N. Bansod
2,
A. Kolhe
2,
J. Khuspure
2,
H. Kuchankar
2,
D. Balbuddhe
2,
S. Sheikh
2,
B. P. Sunitha
6,
B. Mohanty
5,
D. Hazarika
10,
S. Majumdar
7,
R. S. Garhwal
9,
S. Mahapatra
11,
S. Puspamitra
11,
A. Kumar
8,
N. Gautam
2,
B. A. Telpande
2,
A. M. Nimje
2,
C. Likhar
2,
S. Thakre
2
Affiliations
1 Central Institute for Cotton Research, Nagpur 440 010, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Indian Agricultural Research Institute, New Delhi 110 012, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 National Bureau of Agriculturally Important Microorganisms, Mau 275 103, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
10 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
12 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033
13 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
1 Central Institute for Cotton Research, Nagpur 440 010, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 Indian Agricultural Research Institute, New Delhi 110 012, IN
4 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 National Bureau of Agriculturally Important Microorganisms, Mau 275 103, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
10 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
12 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033
13 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1512-1518Abstract
Crop simulation models have emerged as powerful tools for estimating yield gaps, forecasting production of agricultural crops and analysing the impact of climate change. In this study, the genetic coefficients for Bt hybrids established from field experiments were used in the InfoCrop-cotton model, which was calibrated and validated earlier to simulate the cotton production under different agro-climatic conditions. The model simulated results for Bt hybrids were satisfactory with an R2 value of 0.55 (n = 22), d value of 0.85 and a ischolar_main mean square error of 277 kg ha-1, which was 11.2% of the mean observed. Relative yield index (RYI) defined as the ratio between simulated rainfed (water-limited) yield to potential yield, was identified as a robust land quality index for rainfed cotton. RYI was derived for 16 representative benchmark (BM) locations of the black soil region from long-term simulation results of InfoCrop-cotton model (based on 11-40 years of weather data). The model could satisfactorily capture subtle differences in soil variables and weather patterns prevalent in the BM locations spread over 16 agro-ecological sub-regions (AESRs) resulting in a wide range of mean simulated rainfed cotton yields (482-4393 kg ha-1). The BM soils were ranked for their suitability for cotton cultivation based on RYI. The RYI of black soils (vertisols) ranged from 0.07 in Nimone to 0.80 in Panjari representing AESR (6.1) and AESR (10.2) respectively, suggesting that Panjri soils are better suited for rainfed cotton.Keywords
Bt Cotton, Land Quality, Relative Yield Index, Simulation Model.- Soil and Land Quality Indicators of the Indo-Gangetic Plains of India
Abstract Views :341 |
PDF Views:139
Authors
S. K. Ray
1,
T. Bhattacharyya
1,
K. R. Reddy
2,
D. K. Pal
3,
P. Chandran
1,
P. Tiwary
1,
D. K. Mandal
1,
C. Mandal
1,
J. Prasad
1,
D. Sarkar
1,
M. V. Venugopalan
4,
K. Velmourougane
4,
G. S. Sidhu
5,
K. M. Nair
6,
A. K. Sahoo
7,
T. H. Das
7,
R. S. Singh
8,
R. Srivastava
1,
T. K. Sen
1,
S. Chatterji
1,
N. G. Patil
1,
G. P. Obireddy
1,
S. K. Mahapatra
5,
K. S. Anil Kumar
6,
K. Das
7,
S. K. Reza
9,
D. Dutta
9,
S. Srinivas
6,
K. Karthikeyan
1,
A. Srivastava
10,
M. Raychaudhuri
11,
D. K. Kundu
11,
V. T. Dongare
1,
D. Balbuddhe
1,
N. G. Bansod
1,
K. Wadhai
1,
M. Lokhande
1,
A. Kolhe
1,
H. Kuchankar
1,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
V. T. Sahu
1,
S. Sheikh
1,
D. Dasgupta
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1,
K. G. Mandal
10,
G. Kar
10,
K. M. Gaikwad
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
A. Hukare
1,
J. Khuspure
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
11,
S. Puspamitra
11,
A. Kumar
9,
N. Gautam
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 Institute of Food and Agricultural Sciences, Soil and Water Science Department, University of Florida, Gainesville, Florida, US
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Central Institute for Cotton Research, Nagpur 440 010, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 Institute of Food and Agricultural Sciences, Soil and Water Science Department, University of Florida, Gainesville, Florida, US
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Central Institute for Cotton Research, Nagpur 440 010, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
8 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
9 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
10 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
11 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1470-1486Abstract
Sustaining soil and land quality under intensive land use and fast economic development is a major challenge for improving crop productivity in the developing world. Assessment of soil and land quality indicators is necessary to evaluate the degradation status and changing trends of different land use and management interventions. During the last four decades, the Indo-Gangetic Plains (IGP) which covers an area of about 52.01 m ha has been the major food producing region of the country. However at present, the yield of crops in IGP has stagnated; one of the major reasons being deterioration of soil and land quality. The present article deals with the estimation of soil and land quality indicators of IGP, so that, proper soil and land management measures can be taken up to restore and improve the soil health. Use of principal component analysis is detailed to derive the minimum dataset or indicators for soil quality. The article also describes spatial distribution of soil and land quality with respect to major crops of IGP.Keywords
Land Quality Index, Principal Component Analysis, Soil Quality and Health.- Land Evaluation for Major Crops in the Indo-Gangetic Plains and Black Soil Regions Using Fuzzy Model
Abstract Views :353 |
PDF Views:119
Authors
S. Chatterji
1,
P. Tiwary
1,
T. K. Sen
1,
J. Prasad
1,
T. Bhattacharyya
1,
D. Sarkar
1,
D. K. Pal
2,
D. K. Mandal
1,
G. S. Sidhu
3,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
C. Mandal
1,
R. Srivastava
1,
P. Chandran
1,
S. K. Ray
1,
N. G. Patil
1,
G. P. Obireddy
1,
S. K. Mahapatra
3,
S. Srinivas
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
K. S. Anil Kumar
4,
K. Karthikeyan
1,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
1,
G. K. Kamble
1,
M. S. Gaikwad
1,
A. M. Nimkar
1,
S. V. Bobade
1,
S. G. Anantwar
1,
S. Patil
1,
K. M. Gaikwad
1,
V. T. Sahu
1,
H. Bhondwe
1,
S. S. Dohtre
1,
S. Gharami
1,
S. G. Khapekar
1,
A. Koyal
4,
Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
4,
L. Gogoi
7,
V. N. Parhad
1,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
1,
M. Lokhande
1,
V. T. Dongare
1,
A. Hukare
1,
N. Bansod
1,
A. Kolhe
1,
J. Khuspure
1,
H. Kuchankar
1,
D. Balbuddhe
1,
S. Sheikh
1,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
1,
B. A. Telpande
1,
A. M. Nimje
1,
C. Likhar
1,
S. Thakre
1
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
2 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
3 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1502-1511Abstract
Land evaluation is carried out to assess the suitability of land for a specific use. Land evaluation procedures focus increasingly on the use of quantitative procedures to enhance the qualitative interpretation of land resource surveys. Conventional Boolean retrieval of soil survey data and logical models for assessing land suitability, treat both spatial units and attribute value ranges as exactly specifiable quantities. They ignore the continuous nature of soil and landscape variation and uncertainties in measurement, which may result in the failure to correctly classify sites that just fail to match strictly defined requirements. The objective of this article is to apply fuzzy model to land suitability evaluation for major crops in the 15 benchmark sites of the Indo- Gangetic Plains (IGP) and 17 benchmark sites of the black soil regions (BSR). Minimum datasets of land characteristics considered relevant to rice and wheat in the IGP and cotton and soybean in the BSR were identified to enhance pragmatic value of land evaluation. The use of fuzzy model is intuitive, robust and helpful for land suitability evaluation and classification, especially in applications in which subtle differences in land characteristics are of a major interest, such as development of threshold values of land characteristics.Keywords
Benchmark Sites, Fuzzy Model, Land Evaluation, Minimum Datasets.- Impact of Management Levels and Land-Use Changes on Soil Properties in Rice-Wheat Cropping System of the Indo-Gangetic Plains
Abstract Views :309 |
PDF Views:161
Authors
G. S. Sidhu
1,
T. Bhattacharyya
2,
D. Sarkar
2,
S. K. Ray
2,
P. Chandran
2,
D. K. Pal
3,
D. K. Mandal
2,
J. Prasad
2,
K. M. Nair
4,
A. K. Sahoo
5,
T. H. Das
5,
R. S. Singh
6,
C. Mandal
2,
R. Srivastava
2,
T. K. Sen
2,
S. Chatterji
2,
N. G. Patil
2,
G. P. Obireddy
2,
S. K. Mahapatra
3,
K. S. Anil Kumar
4,
K. Das
5,
A. K. Singh
6,
S. K. Reza
7,
D. Dutta
5,
S. Srinivas
4,
P. Tiwary
2,
K. Karthikeyan
2,
M. V. Venugopalan
8,
K. Velmourougane
8,
A. Srivastava
9,
Mausumi Raychaudhuri
10,
D. K. Kundu
10,
K. G. Mandal
10,
G. Kar
10,
S. L. Durge
2,
G. K. Kamble
2,
M. S. Gaikwad
2,
A. M. Nimkar
2,
S. V. Bobade
2,
S. G. Anantwar
2,
S. Patil
2,
V. T. Sahu
2,
K. M. Gaikwad
2,
H. Bhondwe
2,
S. S. Dohtre
2,
S. Gharami
2,
S. G. Khapekar
2,
A. Koyal
4,
Sujatha
4,
B. M. N. Reddy
4,
P. Sreekumar
4,
D. P. Dutta
7,
L. Gogoi
7,
V. N. Parhad
2,
A. S. Halder
5,
R. Basu
5,
R. Singh
6,
B. L. Jat
6,
D. L. Oad
6,
N. R. Ola
6,
K. Wadhai
2,
M. Lokhande
2,
V. T. Dongare
2,
A. Hukare
2,
N. Bansod
2,
A. Kolhe
2,
J. Khuspure
2,
H. Kuchankar
2,
D. Balbuddhe
2,
S. Sheikh
2,
B. P. Sunitha
4,
B. Mohanty
3,
D. Hazarika
7,
S. Majumdar
5,
R. S. Garhwal
6,
A. Sahu
8,
S. Mahapatra
10,
S. Puspamitra
10,
A. Kumar
9,
N. Gautam
2,
B. A. Telpande
2,
A. M. Nimje
2,
C. Likhar
2,
S. Thakre
2
Affiliations
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
1 Regional Centre, National Bureau of Soil Survey and Land Use Planning, New Delhi 110 012, IN
2 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Nagpur 440 033, IN
3 International Crops Research Institute for the Semi-Arid Tropics, Patancheru 502 324, IN
4 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Bangalore 560 024, IN
5 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Kolkata 700 091, IN
6 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Udaipur 313 001, IN
7 Regional Centre, National Bureau of Soil Survey and Land Use Planning, Jorhat 785 004, IN
8 Central Institute for Cotton Research, Nagpur 440 010, IN
9 National Bureau of Agriculturally Important Microorganisms, Mau 275 101, IN
10 Directorate of Water Management, Bhubaneswar 751 023, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1487-1501Abstract
Five benchmark soils, namely Fatehpur (Punjab) and Haldi (Uttarakhand) non-sodic soils, Zarifa Viran (Haryana), Sakit and Itwa sodic soils (Uttar Pradesh) representing Trans, Upper, Middle and Central Indo- Gangetic Plains (IGP) were revisited for studying the morphological, physical and chemical properties of soils at low and high management levels to monitor changes in soil properties due to the impact of landuse as well as management levels. The results indicate an increase in bulk density (BD) below the plough layer, and build up of organic carbon (OC) and decline in pH in surface layers of Zarifa Viran, Sakit and Itwa sodic soils under high management. The concentration of carbonates and bicarbonates in sodic soils decreased due to adaptation of rice-wheat system. The build-up of OC and decrease of pH in surface soils under rice- wheat system enhanced the soil health. Increase in BD in subsurface soils, however, is a cause of concern for sustaining rice-wheat cropping system. Soil management interventions such as tillage, conservation agriculture and alternate cropping system have been suggested for improved soil health and productivity.Keywords
Benchmark Soil, Bulk Density, Land-Use Changes, Rice–Wheat System, Soil Properties.- Clay Dispersion Induced by Changes in Some Soil Properties in Undulating Salt-Affected Landscapes of Southern Karnataka, India
Abstract Views :425 |
PDF Views:135
Authors
K. Rajan
1,
A. Natarajan
2,
V. Kasthuri Thilagam
1,
K. S. Anil Kumar
2,
D. Dinesh
1,
N. M. Alam
3,
O. P. S. Khola
1,
R. C. Gowda
4
Affiliations
1 ICAR-Indian Institute of Soil and Water Conservation, Research Centre, Udhagamandalam 643 004, IN
2 ICAR-National Bureau of Soil Survey and Land Use Planning, Hebbal, Bengaluru 560 024, IN
3 ICAR-Indian Institute of Soil and Water Conservation, 218, Kaulagarh Road, Dehradun 248 195, IN
4 Department of Soil Science and Agricultural Chemistry, GKVK, University of Agricultural Sciences, Bengaluru 560 065, IN
1 ICAR-Indian Institute of Soil and Water Conservation, Research Centre, Udhagamandalam 643 004, IN
2 ICAR-National Bureau of Soil Survey and Land Use Planning, Hebbal, Bengaluru 560 024, IN
3 ICAR-Indian Institute of Soil and Water Conservation, 218, Kaulagarh Road, Dehradun 248 195, IN
4 Department of Soil Science and Agricultural Chemistry, GKVK, University of Agricultural Sciences, Bengaluru 560 065, IN
Source
Current Science, Vol 110, No 5 (2016), Pagination: 874-883Abstract
Effect of sodicity on clay dispersion in salt-affected black soils of the Kabini canal command area in Chamrajnagar district, southern Karnataka was studied. Forty-eight soil samples were collected from nine soil profiles and analysed for physical and chemical properties. The clay dispersion ranged from 0.57% to 62.1%. High positive and negative correlations with exchangeable sodium and exchangeable calcium respectively, with clay dispersion were recorded, which can be predicted better with exchangeable sodium and available soil water. Based on clay dispersion value, 2%, 27% and 71% soils are dispersive, intermediate dispersive and non-dispersive respectively. Based on exchangeable sodium percentage, 50, 21 and 29 soils are dispersive, intermediate dispersive and nondispersive respectively. Application of gypsum and organics reduces the clay dispersion in surface soil. Sub-surface drainage will be more effective. Construction of soil and water conservation structures with pile foundation; providing cement lining for soil stabilization in normal construction; providing drainage lines for the structures; construction after refilling with non-dispersive soil will save the structures in salt-affected soils.Keywords
Clay Dispersion, Sodicity, Sub-Surface Effect, Surface Effect.- Nutrient Availability in Soils as Influenced by Physiography in Ayyammanahalli Village, Bangalore Rural District, Karnataka
Abstract Views :222 |
PDF Views:0
Authors
S. Sheela Rani
1,
K. S. Anil Kumar
1,
D. K. Sandeep Kumar
1,
C. N. Nalina
1,
C. S. Sathish Gowda
1,
L. Asha
1
Affiliations
1 Department of Soil Science and Agricultural Chemistry, University of Agricultural Sciences, G.K.V.K., Bengaluru (Karnataka), IN
1 Department of Soil Science and Agricultural Chemistry, University of Agricultural Sciences, G.K.V.K., Bengaluru (Karnataka), IN
Source
An Asian Journal of Soil Science, Vol 7, No 1 (2012), Pagination: 27-31Abstract
Soil-land form relationship was studied for Ayyammanahalli village by the interpretation of satellite and Google earth imagery. Sampling areas in transect were marked along the slopes based on the tonal variation. The selected transect areas were marked for profile study, five representative pedons were exposed on five different physiography, like Upland summit, Upland lower sector, Upland upper sector, shoulder of upland and lowland. The study area represents semi arid tropical climate. It has vast areas of upland and considerable area of lowland. Majority of the upland is under field crops. Upland has very gentle to gentle slope.Keywords
Nutrient Availability, Physiography, Soil Land Form Relation, Image Interpretation.- Soil Fertility Status and Nutrient Index for Primary Nutrients in Western Ghats and Coastal Karnataka Under Different Agro-Ecological Systems
Abstract Views :275 |
PDF Views:0
Authors
Affiliations
1 University of Agricultural Sciences, Bengaluru (Karnataka), IN
2 ICAR-National Bureau of Soil Survey and Land Use Planning, Bengaluru (Karnataka), IN
3 University of Agricultural Sciences, Bengaluru (Karnataka), IN
1 University of Agricultural Sciences, Bengaluru (Karnataka), IN
2 ICAR-National Bureau of Soil Survey and Land Use Planning, Bengaluru (Karnataka), IN
3 University of Agricultural Sciences, Bengaluru (Karnataka), IN
Source
An Asian Journal of Soil Science, Vol 12, No 2 (2017), Pagination: 314-319Abstract
Study was undertaken in Western Ghats and Coastal area in Karnataka state, India with the aim of evaluating the fertility status of soils using nutrient index approach, mainly for primary nutrients. Based on fertility ratings, pH of soils was strongly acidic to moderately acidic. Electrical conductivity was normal (<1.0 dS m-1). Soil organic carbon was medium to high. Primary nutrient status i.e., N, P and K were low in >60 % samples. Whereas, >80 % of samples were low in exchangeable Ca, Mg and available S content. Among the micronutrients Cu and B were found to be low in >70% of samples, whereas Fe, Mn and Zn were adequate in >85 % of samples. Nutrient index value for major nutrients (available N, available P and available K) was found to be low (<1.67 range).Keywords
Fertility, Primary, Nutrient Index, Micronutrients.References
- Anathanarayana, R., Mithyanta, M.S. and Perur, N.G. (1986). Fertility status of the acid soils of Karnataka. Mysore J. Agric. Sci., 8 : 209.
- Bhandari, A.R. and Randhava, N.S. (1985). Distribution of available micronutrients in soil of apple orchards in Himachal Pradesh. J. Indian Soc. Soil Sci., 33: 171-174.
- Bray, R.H. and Kurtz, L.T. (1945). Determination of total organic carbon and available forms of phosphorus in soils. Soil Sci., 59 : 39-45.
- Dhanya,V., Mathews, Patil, P.L. and Dasog, G.S. (2009). Identification of soil fertility constraints of a pilot site in coastal agro eco system of Karnataka by geographic information systems technique. Karnataka J. Agric. Sci., 22 (1): 77-80.
- Edmeades, D.C., Wheeler, D.M. and Crouchley, G. (1985). Effects of liming on soil magnesium on some soils in New Zealand. Comm. Soil Sci. Plt. Anl.,16: 727-739.
- Gomez, K.A. and Gomez, A.A. (1984). Statistical procedures for agriculture research, 2nd Ed. John Wiley and Sons, NEW YORK, U.S.A.
- Kavitha, C. and Sujatha, M.P. (2015).Evaluation of soil fertility status in various agro ecosystems of Thrissur district, Kerala, India. Internat. J. Agric. Crop Sci., 8 (3): 328-338.
- Kumar, P., Kumar, A., Dyani, B.P., Kumar, P., Shahi, U.P., Singh, S.P., Kumar, R., Kumar, Y. and Sumith, R. (2013).Soil fertility status in some soils of Muzaffarnagar district of Uttar Pradesh, India, along with Ganga canal command area. African J. Agric. Res., 8 (14) : 1209-1217.
- Mini, V. (2003). Characterization and monitoring of soil and water resources in Mirjan village of coastal agroecosystems of Karnataka. M.Sc.(Ag.) Thesis, University of Agricultural Sciences, Dharwad, KARNATAKA (INDIA).
- Patra, P., Mondal, S. and Ghosh, G.K. (2012). Status of available sulphur in surface and sub-surface soils of red and lateritic soils of West Bengal. Internat. J. Pl, Ani. Envi. Sci.,2 (2):276-281.
- Prasad, R. and Sakal, R. (1991). Availability of Fe in calcareous soils in relation to soil properties. J. Indian Soc. Soil Sci., 39: 658-661.
- Ramamoorthy, B. and Bajaj, J.C. (1969). Soil fertility map of India. Ferti. News., 14 (8) : 25.
- Ravikumar, P. and Somashekar, R.K. (2014). Spatial distribution of macronutrients in soils of Markandeya river basin, Belgaum, Karnataka, India. Proc. Internat. Aca. Eco. & Enviorn. Sci., 4 (2): 81-94.
- Roy, B.B. and Landey, R.I. (1962). Studies on red and lateritic soils of Mond watershed area of Raigarh district. Indian J. Agri. Sci., 32 (6): 294-302.
- Saleem, M., Khanif, Y.M., Che Fauziah, I., Samuri, W. and Hafeez, B. (2010). Boron status of paddy soils in the states of Kedah and Kelantan, Malasia. Malasian J. Soil Sci., 1: 83-94.
- Sannappa, B. and Manjunath, K.G. (2013). Fertility status of soils in the selected regions of the Western Ghats of Karnataka, India. Sch. Acad. J. Biosci., 1(5): 200-208.
- Sathisha, G.C. and Badrinath, M.S. (1994). Characterization of soils of Western ghats in Dakshina Kannada district, Karnataka. Agropedology, 4 : 45-48.
- Srinivasan, R., Natarajan, A., Anil Kumar, K.S. and Kalaivanan, D. (2013). Distribution of available macro and micronutrients in cashew growing soils of Dakshina Kannada district of Coastal Karnataka. Madras Agric. J., 100(1-3):747-750.
- Srivastava, P., Singh, B. and Michael, A. (2005).Competitive adsorption behaviour of heavy metals on kaolinite. J. Colloid & Interface Sci., 290 : 28-38.
- Usha, P.B. and Jose, A.I. (1983). Carbon-nitrogen relationship in laterite soils of Kerala. Agric. Res. J. Kerala., 21: 15-22.
- Verma, V.K., Setia, R.K., Sharma, P.K., Singh, Charanjit and Kumar, Ashok (2005). Micronutrient distribution in soils developed on different physiographic units of Fatehgarh Sahib district of Punjab. Agropedology, 15: 70-75.
- Walkley, A. and Black, I.A. (1934). Estimation of soil organic carbon by chromic acid titration method. Soil Sci., 37 : 29-38.
- Surface Soil and Subsoil Acidity in Natural and Managed Land-Use Systems in the Humid Tropics of Peninsular India
Abstract Views :324 |
PDF Views:127
Authors
K. M. Nair
1,
K. S. Anil Kumar
1,
M. Lalitha
1,
Shivanand
1,
S. C. Ramesh Kumar
1,
S. Srinivas
1,
Arti Koyal
1,
S. Parvathy
1,
K. Sujatha
1,
C. Thamban
2,
Jeena Mathew
2,
K. P. Chandran
2,
Abdul Haris
2,
V. Krishnakumar
2,
V. Srinivasan
3,
Jessy
4,
James Jacob
4,
J. S. Nagaraj
5,
Maria Violet D’Souza
5,
Y. Raghuramulu
5,
R. Hegde
1,
S. K. Singh
1
Affiliations
1 Regional Centre, ICAR-National Bureau of Soil Survey and Land Use Planning, Hebbal, Bengaluru 560 024, IN
2 ICAR-Central Plantation Crops Research Institute, Kasaragod 671 124, IN
3 ICAR-Indian Institute of Spices Research, Kozhikode 673 012, IN
4 Rubber Research Institute of India, Kottayam 686 009, IN
5 Coffee Research Institute, Chikmagalur 577 117, IN
1 Regional Centre, ICAR-National Bureau of Soil Survey and Land Use Planning, Hebbal, Bengaluru 560 024, IN
2 ICAR-Central Plantation Crops Research Institute, Kasaragod 671 124, IN
3 ICAR-Indian Institute of Spices Research, Kozhikode 673 012, IN
4 Rubber Research Institute of India, Kottayam 686 009, IN
5 Coffee Research Institute, Chikmagalur 577 117, IN
Source
Current Science, Vol 116, No 7 (2019), Pagination: 1201-1211Abstract
Natural forests and managed plantations constitute the largest land-use systems in the humid tropics of southwestern parts of Peninsular India comprising the Western Ghats and coastal plain. Soils therein are naturally acidic and the acidity is enhanced in managed land-use systems through inputs of chemical fertilizers. Plant nutrient deficiencies and mineral toxicities constrain crop production in acid soils. Surface soil and subsoil acidity in forest, coffee, rubber and coconut land-use systems was evaluated. The spatial pattern of surface soil and subsoil acidity pointed to low intensity of acidification in Malnad region of Karnataka, moderate acidity in northern Kerala and strong acidity in southern Kerala. Among the land-use systems studied, soils under natural forests and coffee plantations were only slightly acidic in surface soil and subsoil, whereas rubber- and coconut-growing soils were strongly acidic. Both natural and managed land-use systems, however, had strongly acid reaction in surface soil and subsoil in southern Kerala. Biomass production and crop yield are constrained in strongly acid soil by toxic levels of aluminium (Al) on soil exchange complex (>0.5 cmol (+) kg–1 soil) and depletion of basic cations of calcium, magnesium and potassium (base saturation less than 50% or Al saturation more than 50%). Surface soil acidity can be ameliorated by incorporating liming materials into surface soils. In case of subsoil acidity gypsum too should be incorporated. Under humid climate partial solubility of gypsum permits movement of calcium into the subsoil layers, wherein calcium replaces the aluminium on exchange complex and sulphate radical precipitates the aluminium by formation of aluminium sulphate.Keywords
Base Saturation, Humid Tropics, Land-Use Systems, Surface Soil and Subsoil Acidity.References
- Von Uexkull, H. R. and Mutert, E., Global extent, development and economic impact of acid soils. Plant Soil, 1995, 171, 1–5.
- Van Wambeke, A., Formation, distribution and consequences of acid soils in agricultural development. In Proceedings of the Workshop on Plant Adaptation to Mineral Stress in Problem Soils (eds Wright, M. J. and Ferrari, S. A.), Special Publication Cornell University, Agric. Exp. Stn., Ithaca, NY, USA, 1976, pp. 15–24.
- Eswaran, H., Soil and site characterization for soil-based research network. In Soil Management Under Humid Conditions in Asia (ASIALAND), IBSRAM, Bangok, 1987, p. 169.
- Maji, A. K., Obi Reddy, G. P. and Meshram, S., Acid soil map of India. Annual Report, ICAR-National Bureau of Soil Survey and Land Use Planning (ICAR-NBSS&LUP), Nagpur, 2008.
- Hede, A. R., Skovmand, B. and Lopez-Cesati, J., Acid soil and aluminium activity toxicity, In Application of Physiology in Wheat Breeding. International Maize and Wheat Improvement Center (eds Reynolds, M. P., Ortiz-Monasterio, J. J. and Mchab, A.), CIMMYT, Mexico, 2001, pp. 172–182.
- Rengel, Z., Uptake of aluminium by plant cells. New Phytol., 1996, 134, 389–406.
- Mora, M. L., Alfaro, M. A., Jarvis, S. S., Demanet, R. and Cartes, P., Soil aluminium availability in Andisols of southern Chile and its effect on forage production and animal metabolism. Soil Use Manage., 2006, 22, 95–101.
- Adams, F., Soil Acidity and Liming, American Society. Agronomy, Crop Science Society of America (CSSA) and Soil Science Society of America (SSSA), Madison, Wisconsin, USA, 1984, 2nd edn.
- Sumner, M. E., Aluminium toxicity – growth limiting factor in some Natal sands. Proc. Suga. Afr. Su. Technol. Assoc., 1970, 44, 1–6.
- Reeve, N. G. and Sumner, M. E., Amelioration of subsoil acidity in Natal Oxisols by leaching of surface applied amendments. Agrochemophysica, 2006, 4, 1–6.
- Clark, R. B., Physiological aspects of calcium, magnesium and molybdenum deficiencies in plants. In Soil Acidity and Liming (ed. Adams, F.), Agron. Monograph, ASA, CSSA and SSSA, Madison, WI, USA, 1984, vol. 12, pp. 99–170.
- Kumar Roy, A., Sharma, A. and Talukder, G., Some aspects of aluminium toxicity in plants. Bot. Rev., 1988, 54, 145–178.
- Panda, S. K., Singha, L. B. and Khan, M. H., Does aluminium phytotoxicity induce oxidative stress in greengram (Vigna radiata). J. Plant Physiol., 2003, 29, 77–86.
- Poschenrieder, C., Gunse, B., Corrales, I. and Barcelo, J., A glance into aluminium toxicity and resistance in plants. Sci. Total Environ., 2008, 400, 356–368.
- Fouche, P. S. and du Sautoy, N., Influence of surface applied lime and gypsum on subsoil acidity, extractable calcium and nutrient accumulation in Avacoado (Persea Americana Mill.). In South African Avocado Grower’s Association Yearbook, 1995, vol. 18, pp. 12–16.
- Blue, W. G. and Dantzman, C. L., Soil chemistry and ischolar_main development in acid soils. Soil Crop Sci. Fla. Proc., 1976, 36, 9–15.
- Rechcigl, J. E., Reneau Jr, R. R. and Starner, D. E., Effect of subsurface amendments and irrigation on alfalfa growth. Agron. J., 1985, 77, 72–75.
- Raji, B., Improving the ischolar_main environment in the subsurface. In Boas Practicas para USO Eficiente de Fertilizantes (eds Prochnow, L. I. et al.), International Plant Nutrition Institute, United States, 2010, pp. 349–382.
- Nair, K. M. et al., Agro-Ecology of Kerala, NBSS Publ. No. 1038, NBSS&LUP, Nagpur, 2011.
- Anil Kumar, K. S. et al.,. Soil Quality Monitoring Sites (SQMS) for Traditional Rubber-Growing Areas of South India, NBSS Publ. No., NBSS&LUP, Nagpur, 2016.
- Nair, K. M. et al., Soil Quality Monitoring Sites (SQMS) for Traditional Coffee-Growing Areas of India, NBSS Publ. No., National Bureau of Soil Survey and land Use Planning, Nagpur, 2016.
- Soil Survey Staff, Soil Taxonomy: A Basic System of Soil Classification for Making and Interpreting Soil Surveys. United States Department of Agriculture-National Resources Conservation Services, Agriculture Handbook, 436, US Government Printing Office, Washington DC, USA, 1999, 2nd edn.
- Jackson, M. L., Soil Chemical Analysis, Prentice Hall of India (Pvt) Ltd, New Delhi, 1973.
- Piper, C. S., Soil and Plant Analysis, Hans Publishers, Bombay, 2002.
- Sparks, Methods of Soil Analysis Part-II: Chemical Methods, Soil Science Society of America, USA, 1996.
- Chandran, P., Ray, S. K., Bhattacharyya, T., Srivastava, P., Krishnan, P. and Pal, D. K., Laterite soils of Kerala, India: their mineralogy, genesis and taxonomy. Aust. J. Soil Res., 2005, 43, 839–852.
- Sposito, G., The Environmental Chemistry of Aluminum, CRC Press, Florida, USA, 2000.
- Herrera, R., Jordan, C. F., Klinge, H. and Medina, E., Amazon ecosystems. Thei structure and functioning with particular emphasis on nutrients. Intersciencia, 1978, 3(4), 223–231.
- Herrera, R., Jordan, C. F., Medina, E. and Klinge, H., How human activities disturb nutrient cycles of a tropical rainforest in Amazonia. Ambio., 1981, 10(2–3), 109–114.
- Kannan, K. P., Agricultural development in an emerging non-agrarian regional economy: Kerala’s challenges. Econ. Polit. Wkly. XLVI, 2011, 9, 64–70.
- Kemmit, S. J., Wright, D., Goulding, K. W. T. and Jones, D. L., pH regulation of carbon and nitrogen dynamics in two agricultural soils. Soil Biol. Biochem., 2006, 38, 898–911.
- Rousk, J., Brooks, P. C. and Baath, E., Contrasting soil pH effects on fungal and bacterial growth suggest functional redundancy in carbon mineralization. Appl. Environ. Microbiol., 2009, 75(6), 1589–1596.
- Bru, D., Ramette, A., Saby, N. P. A., Dequidt, S., Ranjard, L., Jolivet, C. and Arrouays, D., Determinants of the distribution of nitrogen-cycling microbial communities at the landscape scale. ISME J., 2011, 5, 532–542.
- Lavelle, P., Chauvel, A. and Fragoso, C., Faunal activity in acid soils. In Plant Soil Interactions at Low pH (eds Date, R. A. et al.), Kluwer, The Netherlands, 1955, pp. 201–211.
- Adams, F., Nutrient importance and constraints in acid soils. J. Plant Nutr., 1981, 444, 81–88.
- Nair, K. M. and Chamuah, G. S., Exchangeable aluminium in soils of Meghalaya and management of Al3+ related productivity constraints. J. Indian Soc. Soil Sci., 1993, 41, 331–334.
- Bloom, P. R., McBride, M. B. and Weaver, R. M., Aluminium organic matter interactions in acid soils: salt-extractable aluminiun. Soil Sci. Soc. Am. J., 1979, 43, 813–815.
- Koltz, F. and Hortz, W. J., Genotype differences in aluminium tolerance of soybean (Glycine max. L.) as affected by ammonium and nitrate nitrogen nutrition. J. Plant Physiol., 1988, 132, 702–707.
- Foy, C. D., Chaney, R. L. and White, M. C., The physiology of metal toxicity in plants. Annu. Rev. Plant Physiol., 1978, 29, 511– 566.
- Foy, C. D., Physiological effects of hydrogen, aluminium and manganese toxicities in acid soil. In Soil Acidity and Liming (ed. Adams, F.), American Society of Agronomy, Madison, WI, USA, 1984, pp. 57–97.
- Marchner, H., Mechanisms of adaption of plants to acid soils. Plant Soil, 1991, 134, 1–24.
- Huang, J. W., Shaff, J. E., Grunes, D. L. and Kochian, L. V., Aluminium effects on calcium fluxes at the ischolar_main apex of aluminium tolerant and aluminium sensitive wheat cultivars. Plant Physiol., 1992, 98, 230–237.
- Rengel, Z. and Robinson, D. L., Aluminium effects on growth and macronutrient uptake by annual ryegrass. Agron. J., 1989, 81, 208–215.
- Thomas, G. W., Historical developments in soil chemistry: ion exchange. Soil Sci. Soc. Am. J., 1977, 41, 230–238.
- Coleman, N. T., Kamprath, E. J. and Weed, S. B., Liming. Adv. Agron., 1959, 10, 475–522.
- Thomas, G. W. and Hargrove, W. I., The chemistry of soil acidity. In Soil Acidity and Liming (ed. Adams, F.), American Society of Agronomy, Madison, WI, USA, 1984, pp. 3–56.
- Shainberg, I., Sumner, M. E., Miller, W. P., Farina, M. P. W., Pavan, M. A. and Fey, M. V., Use of gypsum on soils: a review. Adv. Soil Sci., 1989, 9, 1–111.
- Farina, M. P. W. and Channon, P., Acid subsoil amelioration, 1. A comparison of several mechanical procedures. Soil Sci. Soc. Am. J., 1988, 52, 169–175.
- Jayawardane, N. S., Barrs, H. D., Muirhead, W. A., Blackwell, J., Murray, E. and Kirchof, G., Lime slotting technique to ameliorate subsoil acidity in clay soil: II Effect on medic ischolar_main growth, water retention and yield. Aust. J. Soil Res., 1995, 33, 443–459.
- Richey, K. D., Souza, D. M. G., Lobato, E. and Correa, O., Calcium leaching to increase ischolar_maining depth in Brazilian Savanna Oxisol. Agron. J., 1980, 72, 41–44.
- Pavan, M. A., Bingham, F. T. and Pratt, P. F., Redistribution of exchangeable calcium, magnesium and aluminium following lime or gypsum application to Brazilian Oxisol. J. Soil Sci. Soc. Am., 1984, 48, 33–38.
- Ritchy, K. D., Feldhake, C. M., Clark, R. B. and Sousa, D. M. G., Improved water and nutrient uptake from subsurface layers of gypsum amended soils. In Agricultural Utilization of Urban and Industrial By-products, ASA Spec. Publ. 58. ASA, Madison, WI, USA, 1995, pp. 157–181.
- Farina, M. P. W., Management of subsoil acidity in environments outside humid tropics. In Plant–Soil Interactions at Low pH: Sustainable Agriculture and Forestry Production (eds Moniz, A. C. et al.), Brazilian Soil Science Society, Campinas, Brazil, 1997, pp. 179–190.
- Farina, M. P. W., Channon, P. and Thibaud, G. R., A comparison of strategies for ameliorating subsoil acidity. I. Long term growth effects. Soil Sci. Soc. Am. J., 2000, 64, 646–651.
- Juo, A. S. R. and Kamprath, E. J., Copper chloride as an extractant for estimating potentially reactive aluminium pools in acid soils. Soil Sci. Soc. Am. J., 1979, 43, 35.