Refine your search
Co-Authors
Journals
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
Mehra, T. S.
- Effect of Pollination Methods on Seed Yield and Colchicine Content in Glory Lilly (Gloriosa superba L.)
Abstract Views :295 |
PDF Views:0
Authors
Source
Indian Forester, Vol 134, No 4 (2008), Pagination: 549-553Abstract
The medicinal properties of Gloriosa superba, a perennial herb reproducing both by seed and tuber, are due to presence of colchicine in its seeds and tubers. The weak stemmed aerial part is annual which dries off after setting seed. Harvesting its tubers for medicament leads to destructive harvesting. Using seeds for drug purposes (with higher colchicines content as compared to tuber) has the advantage of annual harvest and also avoiding destructive harvesting. However, seed production under natural condition is quite low and uneconomical. It has been found that seed setting in the species is pollen limited. Results obtained have revealed that although the species is both self as well as cross compatible but seed setting is significantly influenced by pollination methods used. Controlled selfing between different flowers on the same plant have given significantly higher seed setting as compared to other methods tried. There was considerable increase in number of seeds produced per capsule (42.26) and dry seed weight per plant (1.13 g). It is suggested that for increasing seed set different flowers on the same plant should be selfed (Gnetonogamy) at stigma receptive stage.Keywords
Gloriosa superba, Pollination, Fruit Set, Seed Set, Colchicine- Enhancing Rootstock Biomass Production in Picrorhiza kurroa through Growth Regulator Treatment
Abstract Views :277 |
PDF Views:0
Authors
Source
Indian Forester, Vol 133, No 8 (2007), Pagination: 1091-1096Abstract
Effect of different concentrations and dipping time periods of growth regulators IAA, IBA, NAA and GA3 on ischolar_maining, field survival and ischolar_mainstock biomass yield in important endangered alpine medicinal plant Picrorhiza kurroa revealed that pre-planting treatments of stolon cuttings by IBA 100ppm for 24 hrs resulted in maximum sprouting percentage (88.89 %), field survival (77.18 %) and dry ischolar_main-stock (economic part) biomass yield of 7.8 g/plant after two years. Treated cuttings can be directly field planted which can reduce the cost. An estimated yield of approximately 577 kg of dry ischolar_mainstock per hectare can be obtained after two years of field growth.- Scope of Re-incorporation of Selected Medicinal Plants in Forest Ecosystems
Abstract Views :313 |
PDF Views:0
Authors
Source
Indian Forester, Vol 137, No 7 (2011), Pagination: 840-846Abstract
Approach to conserve biodiversity for sustainable development should be targetted at different levels, from improving living standards to changing the attitude of people. If Himalayan medicinal plants are to continue to serve the needs of the people without being reduced to a dangerously unstable resource base, they have to be considered in the perspective of sound ecological management that also has economic benefits to the local people. From the concept of in-situ conservation we need to move to In-situ cultivation.Keywords
Medicinal Plants, Biodiversity, Conservation, In-situ, Cultivation- Evaluation of Different Collections of Mucuna pruriens for Morphological Parameters and L-dopa Yield
Abstract Views :357 |
PDF Views:0
Authors
Source
Indian Forester, Vol 137, No 5 (2011), Pagination: 644-648Abstract
Mucuna pruriens, commonly known as Konch or Cowhedge is a traditionally used medicinal plant. Seeds of the species contain high percentage of active principle L-DOPA, which is used for curing Parkinson disease. There is a great variation in the seed colour of the species, and in the present study twenty eight black mottled with brown (collected locally) and creamish white (procured form NBPGR New Delhi) seeds were evaluated for morphological parameters as well as for L-DOPA content. Black seeded collections were found to contain high level of L-DOPA ranging 6.36 to 7.30. But, the seed yield and consequently L-DOPA yield was low ranging 38.40-65.86g and 2.35-4.69g per plant respectively Moreover, pods of these collections contain itching trichomes which puts workers in commercial cultivation Among black seeded collections regarding seed yield, L-DOPA content and L-DOPA yield collections Panba, Nagrota, Jwalaji Hilltop and Jwalaji excelled over all other collections. L-DOPA content in white seeded collections was low ranging 5.41-5.78 per cent. But, the seed yield and consequently L-DOPA yield was very high ranging 4.30-697.20g and 23.38-39.73g respectively. Also, pods of these collections are devoid of itching trichomes. Among white seeded collections regarding seed yield, L-DOPA content L-DOPA yield collection IC127363 and IC 127362 excelled over other collections. Exotic collection EC 144945 performed below par for all the parameters studied.Keywords
Mucuna Proriens , Cowhedge, L-dopa, Medicinal Plant- Populus gamblei Dode: An Eastern Himalayan Poplar Reported from New Sites
Abstract Views :314 |
PDF Views:0
Authors
Affiliations
1 ICAR RC for NEH Region, Umiam (Meghalaya), IN
1 ICAR RC for NEH Region, Umiam (Meghalaya), IN
Source
Indian Forester, Vol 141, No 6 (2015), Pagination: 705-706Abstract
No abstract.- A Simple and Cost-Effective Method of Raising Quality Planting Material of Picrorhiza kurroa Royle Ex. Benth
Abstract Views :188 |
PDF Views:0
Authors
Affiliations
1 College of Horticulture and Forestry, CAU, Pasighat (Arunachal Pradesh), IN
2 Depertment of Forest Products, Dr. Y.S.Parmar UHF, Nauni-Solan (HP), IN
3 Division of Agroforestry, ICAR Research Complex for NEH Regions, Umiam (Meghalaya), IN
1 College of Horticulture and Forestry, CAU, Pasighat (Arunachal Pradesh), IN
2 Depertment of Forest Products, Dr. Y.S.Parmar UHF, Nauni-Solan (HP), IN
3 Division of Agroforestry, ICAR Research Complex for NEH Regions, Umiam (Meghalaya), IN
Source
Indian Forester, Vol 142, No 2 (2016), Pagination: 203-204Abstract
No Abstract.- Quantitative Assessment of Crop Species Diversity in Shifting Cultivation System o Eastern Himalaya
Abstract Views :274 |
PDF Views:93
Authors
Affiliations
1 College of Horticulture and Forestry, Central Agricultural University (I), Pasighat 791 102, IN
2 Division of Agricultural Extension, KAB-I, Indian Council of Agricultural Research, New Delhi 110 012, IN
3 ICAR-National Bureau of Plant Genetic Resources, New Delhi 110 012, IN
4 ICAR-Agricultural Technology Application Research Institute, Kanpur 278 002, IN
1 College of Horticulture and Forestry, Central Agricultural University (I), Pasighat 791 102, IN
2 Division of Agricultural Extension, KAB-I, Indian Council of Agricultural Research, New Delhi 110 012, IN
3 ICAR-National Bureau of Plant Genetic Resources, New Delhi 110 012, IN
4 ICAR-Agricultural Technology Application Research Institute, Kanpur 278 002, IN
Source
Current Science, Vol 117, No 8 (2019), Pagination: 1357-1363Abstract
The narrowing of diversity in crop species contributing to the world’s food supplies has been considered a potential threat to food security. The present study quantifies crop species diversity in controversial shifting cultivation system (SCS) using primary data from 52 villages spread across six North-Eastern (NE) hill states of India. The findings reveal that SCS is much diversified compared to settled cultivation system. Along with cereals, millets and pulses, the upland tribes grow a variety of horticultural crops on SC land. At the aggregate level, horticultural crops in the sampled states were observed to be much diversified and the mean diversification index value was found to be 0.79 (Simpson’s Diversity Index) for the six NE hill states on SC land. The present study documented 25 cultivars of vegetables, 22 cultivars of fruits, spices and plantation crops, and 12 field crops in SCS, besides many minor fruits and underutilized vegetables. However, the most densely populated crop species were rice, maize and finger millet in the case field crops. Vegetable crops included pumpkin, potato and ash gourd, and fruit crops included banana, pineapple and citrus, while spices like ginger, chilli and turmeric were densely cultivated on SC land. Thus, the prevailing crop species in SCS had their own attributes, performances and challenges. Experiences of the present study shall be the guiding benchmark for those who negate the possibilities of agrobiodiversity in SCS.Keywords
Agrobiodiversity, Crop Diversity, Upland Tribes, Shifting Cultivation.References
- FAO, Second global plan of action for plant genetic resources for food and agriculture, Commission on Genetic Resources for Food and Agriculture, Food and Agricultural Organization, Rome, Italy, 2011.
- United Nations, World population prospects: the 2017 revision, 2018; https://www.un.org/development/desa/en/news/population/world-population-prospects-2017.html
- Litrico, I. and Violle, C., Diversity in plant breeding: a new conceptual framework. Trends Plant Sci., 2015, 20, 604–613.
- Engels, J., Diulgheroff, S. and Alvarez, J. S., Management of Crop Diversity: Key Practices for DRR Implementers, 2014.
- Pant, R. M., Tiwari, B. K. and Choudhury, D., Report of Working Group III Shifting Cultivation: towards a transformational approach, NITI Aayog, New Delhi, 2018.
- Kerkhoff, E. and Sharma, E., Debating shifting cultivation in the Eastern Himalayas: Farmers’ innovations as lessons for policy. International Centre for Integrated Mountain Development, Kathmandu, Nepal, 2006.
- Vavilov, N. I., Phytogeographic basis of plant breeding. The origin, variation, immunity and breeding of cultivated plants. Chron. Bot., 1951, 13, 1–366.
- Darlong, V. T., To jhum or not to jhum: policy perspectives on shifting cultivation. Missing Link (TML), Society for Environment and Communication, New Delhi, 2004.
- Basnet, D., Kandel, P., Chettri, N., Yang, Y., Lodhi, M. S., Htun, N. Z. and Sharma, E., Biodiversity research trends and gaps from the confluence of three global biodiversity hotspots in the fareastern Himalaya. Int. J. Ecol., 2019, 2019, 1–14; https://doi.org/10.1155/2019/1323419.
- Nkoa, R., Owen, M. D. K. and Swanton, C. J., Weed abundance, distribution, diversity, and community analyses. Weed Sci., 2015, 63, 64–90; doi:10.1614/WS-D-13-00075.1
- Simpson, E. H., Measurement of diversity. Nature, 1949, 163, 688.
- Yeom, D. J. and Kim, J. H., Comparative evaluation of species diversity indices in the natural deciduous forest of Mt. Jeombong. For. Sci. Technol., 2011, 7, 68–74.
- Nakro, V., Traditional agricultural practices and sustainable livelihood, a thematic report. Department of Planning and Coordination, Government of Nagaland, 2011.
- Yumnam, J. Y., Bhuyan, S. I., Khan, M. L. and Tripathi, O. P., Agro-diversity of East Siang, Arunachal Pradesh, Eastern Himalaya. Asian J. Agric. Sci., 2011, 3, 317–326.
- Teegalapalli, K. and Datta, A., Shifting to settled cultivation: changing practices among the Adis in Central Arunachal Pradesh, North-East India. Ambio, 2016, 45, 602–612; https://doi.org/ 10.1007/s13280-016-0765-x.
- Alam, M. K. and Mohiuddin, M., Shifting cultivation (jhum) agrobiodiversity at stake: Bangladesh situation. Acta Hortic., 2009, 806, 709–716; https://doi.org/10.17660/ActaHortic.2009.806.88.
- DRD, State-wise rice productivity analysis, State: Arunachal Pradesh. Directorate of Rice Development, Department of Agriculture and Co-operation, Patna, 2015; http://drdpat.bih.nic.in
- Fukuoka, S., Suu, T., Ebana, K., Trinh, L., Nagamine, T. and Okuno, K., Diversity in phenotypic profiles in landrace populations of Vietnamese rice: a case study of agronomic characters for conserving crop genetic diversity on farm. Genet. Res. Crop Evol., 2006, 53, 753–761.
- Rana, R. B., Garforth, C., Sthapit, B. and Jarvis, D., Influence of socio-economic and cultural factors in rice varietal diversity management on-farm in Nepal. Agric. Human Values, 2007, 24, 461–472.
- Lalengzama, C., Agrarian structure and transformation in Mizoram, North East India. J. Hum. Soc. Sci., 2019, 24, 6–23.
- Tirkey, A., Sarawgi, A. K. and Subbarao, L. V., Studies on genetic diversity in various qualitative and quantitative characters in rice germplasm. Indian J. Plant Genet. Resour., 2013, 26(2), 132– 137.
- Dikshit, K. R. and Dikshit, J. K., North-East India: Land, People and Economy, Springer, Dordrecht, 2014.
- Delang, C. O., Weiyi, X., Brooke, B. and Chun, K. P., The effect of fallow period length on the abundance and diversity of usable plant assemblages in shifting cultivation system (swidden agriculture) in northern Laos. Pol. J. Ecol., 2016, 64, 350–356.