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Sareen, T. S.
- Pollination Biology in Dalbergia Sissoo Roxb. (Papilionodeae; Leguminosae)
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Butterflies.
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Indian Forester, Vol 135, No 9 (2009), Pagination: 1165-1168Abstract
Dalbergia sissoo flowers were pollinated by honey bees, beetles, butterflies and thrips. These insects except thrips, primarily affect cross-pollination, but self-pollinations were also caused by them. Thrips mainly brought about self-pollinations as they were mostly confined inside the flowers. The anthesis, dehiscence of anthers, stigma receptivity and pollinator activity showed synchronised diurnal rhythm which ensures effective pollination.Keywords
Pollination Biology, Dalbergia Sissoo Roxb., Chandigarh, Honey Bees, Beetles,Butterflies.
- Breeding Systems of Millettia Ovalifolia Kurz. (Leguminosae) and Jacranda Mimosifolia D. Don. (Bignoniaceae)
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Indian Forester, Vol 117, No 1 (1991), Pagination: 70-71Abstract
No abstract- Cyiology of some Varieties of Ziziphus jujuba Lamk
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Indian Forester, Vol 102, No 12 (1976), Pagination: 873-875Abstract
Eight varieties of Ziziphus jujuba have heen cytologically investigated. Of these seven varieties are tetraploids (n = 24), being reported here for the first time, while one is hexaploid with n=36. Jogia exhibits normal meiotic behaviour. The formation of variable number of quadrivalents in others seem to indicate their segmental alloploid origin.- Reproductive Biology of Dalbergia sissoo Roxb
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Indian Forester, Vol 137, No 4 (2011), Pagination: 411-425Abstract
Dalbergia sissoo has flowering season of two months and the peak flowering period was for a week. The anthesis, dehiscence of anthers, stigma receptivity and pollinator activity showed synchronised diurnal rhythm. Flowers were pollinated by honey bees, beetles, butterflies and thrips. Despite the deep penetration of the self pollen tubes only 6% of selfed flowers produced fruits (against 44% in cross pollinated). This is due to the presence of self-incompatibility which is assessed to be of the gametophytic type. The low seed production helped in efficient dispersal of pods due to decreased wing loading of pods. It also helped in post dispersal establishment due to lack of competition between fewer genetically related seeds in a pod. Dispersal of seeds occurred through the agency of wind, birds and water. The abortion of flowers and immature fruits was common in Dalbergia sissoo. The fruit set in nature was 15% while the remaining 85 % flowers aborted. The fruit formation following deliberate selfing was 6 % in contrast to 44% from deliberate cross-pollination. Post zygotic factors have primarily been implicated to explain the abortion of fruits in D. sissoo. The average seed production was 1.30 formed from an average of 5 ovules. The mature brown pod was 1-3 seeded and rarely 4 seeded. Seed abortion was observed in 74% of cases with only 26% cases of the ovules developing into mature seeds. The distal most ovule developed into mature seed in 75% cases. Seed abortions were probably due to the dominant distal most ovule starving the other proximal ovules.- Chromosome Numbers in some Species of Cassia Linn
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