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Umesha, B.
- Climate Change Analysis in Southern Telangana Region, Andhra Pradesh Using LARS-WG Model
Abstract Views :285 |
PDF Views:91
Authors
Affiliations
1 Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad 500 059, IN
1 Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad 500 059, IN
Source
Current Science, Vol 107, No 1 (2014), Pagination: 54-62Abstract
Weather-generating models are widely used for studying the climate change over longer periods. LARS-WG model was evaluated for southern Telangana region (Hayathnagar, Yacharam and Rajendranagar). A 30- year base weather data (1980-2010) was used to generate the long-term weather series from 2011 to 2060. The results of t and F tests at probability of 5% for comparing means and standard deviations of monthly rainfall and air temperatures indicated that the observed and predicted series for the base period are within acceptable limits. The statistics of model efficiency indicates that mean monthly rainfall and daily air temperature are close to the predicted series over the base period. The model efficiency was highest in the case of Rajendranagar (98.75%). The ischolar_main mean square error and sum of square error varied from 0.4 to 1.3 mm and 615 to 1745 mm respectively. The model predicted the maximum increase in average annual rainfall of 5.16% in 2030 and 9.5% in 2060 for Yacharam compared to Hayathnagar and Rajendranagar over the normal annual rainfall of the base period (1980-2010). However, the model predicted increase in average seasonal rainfall for Hayathnagar (6.2% in 2030 and 8.8% in 2060). In case of air temperature, the model predicted increase in maximum temperature in the range 1-1.53% and 2.5% for 2030 and 2060 respectively, for these locations whereas minimum temperature decreased in the range 3.7-10.2% and 6.3- 11.7% respectively, for 2030 and 2060. The performance of LARS-WG model was ranked high with maximum model efficiency in all selected mandals of Ranga Reddy district in southern Telangana. This model can be replicated in other mandals of southern Telangana as climate characteristics of the present mandals are similar to other districts in the region.Keywords
Climate Change, Rainfall, Temperature, Weather-Generating Models.- Dynamics of well Irrigation Systems and CO2 Emissions in Different Agroecosystems of South Central India
Abstract Views :202 |
PDF Views:80
Authors
Affiliations
1 Division of Resource Management, Central Research Institute for Dryland Agriculture, Santhoshnagar, Saidabad, Hyderabad 500 059, IN
2 Division of Crop Science, Central Research Institute for Dryland Agriculture, Santhoshnagar, Saidabad, Hyderabad 500 059, IN
1 Division of Resource Management, Central Research Institute for Dryland Agriculture, Santhoshnagar, Saidabad, Hyderabad 500 059, IN
2 Division of Crop Science, Central Research Institute for Dryland Agriculture, Santhoshnagar, Saidabad, Hyderabad 500 059, IN
Source
Current Science, Vol 108, No 11 (2015), Pagination: 2063-2070Abstract
Water application systems under wells extracting groundwater are one of the major factors influencing climate change in the agricultural sector. In the context of growing demand for adaption of pressurized irrigation with electric pumps in South Central India, the present study was undertaken to assess the carbon dioxide emission (CO2 e) for different irrigation systems. The crop water requirements and pumpsets prevailing in the area were considered for estimation of CO2 e. The estimation includes operational energy consumption, well digging, installation and manufacturing of the irrigation system as well as the pumpsets. The irrigation systems used in major crops under wells include surface (rice, maize, groundnut, vegetables and sugarcane), raingun (maize, groundnut, vegetables and sugarcane), sprinkler (maize, groundnut and vegetables) and drip (vegetable and sugarcane). The analysis indicated that the energy used in pumping irrigation water made the highest contribution to total CO2 e footprint, which ranged from 2.52 to 15.72 t/ha depending on the irrigation system. Sugarcane crop showed maximum energy requirement (17.27 MWh/ha) under surface irrigation system, contributing 15.72 t/ha CO2 e. Maximum reduction in energy requirement and CO2 e was recorded in the case of drip (11.52 MWh/ha; 10.48 t/ha) system followed by sprinkler (12.58 MWh/ha; 11.52 t/ha) and raingun (14.81 MWh/ha; 13.47 t/ha) under tube wells. It was observed that among all the irrigation systems, the drip system gave the lowest CO2 e indicating the maximum climate change mitigation potential in the irrigation sector of selected region under wells.Keywords
Carbon Dioxide Emission, Climate Change, Groundwater, Pressurized Irrigation, Tube and Dug Wells.- Climate Change Impacts on Crop Water Balance of Maize (Zea mays L.) in Lower Krishna River Basin of South India
Abstract Views :263 |
PDF Views:87
Authors
K. S. Reddy
1,
M. Kumar
1,
V. Maruthi
2,
P. Lakshminarayana
1,
Vijayalakshmi
1,
B. Umesha
1,
Y. V. K. Reddy
1
Affiliations
1 Division of Resource Management, ICAR-Central Research Institute for Dryland Agriculture, Hyderabad 500 059, IN
2 Division of Crop Sciences, ICAR-Central Research Institute for Dryland Agriculture, Hyderabad 500 059, IN
1 Division of Resource Management, ICAR-Central Research Institute for Dryland Agriculture, Hyderabad 500 059, IN
2 Division of Crop Sciences, ICAR-Central Research Institute for Dryland Agriculture, Hyderabad 500 059, IN