- P. K. Shukla
- A. K. Patra
- Rekha Shukla
- Jamaluddin
- Mithilesh Jaiswal
- Anubha Srivastav
- Ritesh Dubey
- A. K. Bisaria
- P. K. Pande
- Sayeeda Khatoon
- R. K. Garg
- D. Goyal
- R. K. Sharma
- S. K. Varma
- R. R. Jha
- D. C. Kori
- A. Bhambri
- A. Malhotra
- R. Jhobta
- A. Kaundal
- K. Bhambri
- A. Juneja
- R. D. Dubey
- S. Paroha
- V. K. Wani
- P. K. Sahu
- S. Verma
- S. J. Daharwal
- S. R. Singh
- L. Wangchu
- A. K. Phurailatpam
- N. Lyngdoh
- Bijendra Kumar
- Chandra Dev
- Madan Gopal Patle
- K. Haridasan
- A. A. Mao
- M. K. Janarthanam
- S. K. Barik
- S. K. Srivastava
- P. C. Panda
- Geetha Suresh
- S. K. Borthakur
- B. K. Datta
- B. Ravi Prasad Rao
- S. Chakraborty
- G. Ravikanth
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
Pandey, A. K.
- Role of Medicinal Plants in Health Care and Rural Economy in the Tribals of Satpura Plateau Region of Central India
Authors
Source
Indian Forester, Vol 134, No 11 (2008), Pagination: 1438-1446Abstract
The Satpura plateau region of Central India is home of numerous herb species. The agroclimatic conditions prevailing in the region provides an ideal habitat for the natural growth of variety of plants and herbs, which provide raw materials for pharmaceutical, phytochemical, food, flavoring and cosmetic industries. The paper provides information on 92 medicinal plants used by the Gond, Bharia and Korku tribes of Chhindwara, Betul, Hosangabad and Seoni district of Madhya Pradesh, India, for the treatment of various diseases. Traditional medicine remains an integral part of the health system in this region of Central India. Medicinal plants of forest origin hold great promise to enhance the health and source of livelihood to the forest dwellers.Keywords
Satpura Plateau, Central India, Medicinal Plants, Health Care, Rural Economy,Tribals
- Medicinal Plants in Satpuraplateau of Madhyapradesh: Current Status and Future Prospects
Authors
Source
Indian Forester, Vol 131, No 7 (2005), Pagination: 857-883Abstract
Satpura Plateau of Madhya Pradesh with diverse agro-climatic conditions, Jarge biodiversity and strategic geographical location is likely to emerge as a leading producer and supplier of medicinal plants. The paper gives a resume of activities undertaken in recent years by Centre for Forestry Research and Human Resource development, Chhindwara as a part of eudeavour towards conserving the medicinal plant wealth and promoting the cultivation of medicinal plant. Training programmes on conservation and cultivation of medicinal plants have also been carried out as apart of Human Resource Development activity. Agrotechniques have been developed for the cultivation of Abelmoschus moschatus, Acorus calamus, Andrographis paniculata, Rauvolfia serpentina, Withania somnifera, Cymbopogon flexuosus, Cymbopogon martinii and Mentha arvensis.- Studies on Phosphatase Enzyme Activity of Pseudomonas fluorescens Isolates of Jatropha curcas L.
Authors
Source
Indian Forester, Vol 136, No 4 (2010), Pagination: 451-455Abstract
Phosphate solubilizingbacteria are known to play a major role in the solubilization of unavailable forms of soil phosphorus and uptake its native and applied forms. A total of 17 different Pseudomonas flourescens isolates recovered from rhizosphere and J.curcas, planted in different localities, were evaluated for their phosphatase activity in in vitro and in vivo conditions. Isolates viz., P#10, P#l1 and P#02 revealed maximum phosphatase enzyme activity and influence the maximum growth and therefore can be used as bioinoculant in nursery and field trials for better production of J.curcas.Keywords
Pseudomonas fluorescens, Biofertilizer, Jatropha curcas, Phosphate Solubilization- Role of Microbial Inoculants on Growth and Development of Jatropha Curcas in Field
Authors
Source
Indian Forester, Vol 138, No 7 (2012), Pagination: 652-656Abstract
Different microbial inoculants were tried to study their effect on the growth and development of Jatropha curcas L. All microbial (mix) inoculants showed response in enhancing the growth of J. curcas in terms of height and collar diameter. Microbial inoculation and mixed inoculation induced flowering while fruiting in 2nd year plants could be recorded only in AM and mixed inoculants of microbes. Though the fruit production was limited but could produce viable seeds. Experiments indicated that the microbial inoculants were more suitable for early flowering and fruiting. It is an important step for enhancing the productivity of this biodiesel plant.Keywords
Jatropha Curcas, Microbial Inoculant, Growth, Flowering Fruiting- Assessment of Important Trees Outside forests (TOF) in Gorakhpur District of Uttar Pradesh
Authors
Source
Indian Forester, Vol 138, No 3 (2012), Pagination: 252-256Abstract
A study has been undertaken to assess the number of six important tree species including teak (Tectona grandis), mango (Mangifera indica), babool (Acacia nilotica), neem (Azadirachta indica), kathal (Artocarpus heterophyllus) and shisham (Dalbergia sissoo) outside forests in rural areas of district Gorakhpur. Out of 3327 villages of Gorakhpur district, 66 villages (2%) were taken for the study. Number of trees on the basis of diameter classes was recorded in selected villages of respective tehsils. A total of 6,71,852 trees of teak, 4,83,876 trees of mango, 99,053 trees of neem, 36748 trees of kathal, 2,88,995 trees of shisham and 68,909 trees of babool were enumerated in different diameter classes. It was found that babool and kathal trees were very less as compared to other species. Thus, introduction of these species in large areas/private land of farmers may be a viable option for minimizing demand-supply gap as well as to increase the tree cover.Keywords
Tree Outside Forests, Diameter Class, Timber And Firewood Species, Afforestation Programme, Tectona grandis, Acacia Nilotica, Artocarpus Heterophyllus- Rational Utilization of Important Medicinal Plants: a Tool for Conservation
Authors
Source
Indian Forester, Vol 124, No 4 (1998), Pagination: 197-206Abstract
Medicinal plants have been in use, perhaps since the beginning of civilization. Chhindwara District in Madhya Pradesh is blessed with innumerable varieties of medicinal plants, most of which are found growing in the under storey and as ground flora in forests. Unfortunately, rapid depletion of forests due to excessive pressure has threatened many species to extinction. The current trend in increasing demand for medicinal and aromatic plants in India and world-wide has resulted in unscientific and over exploitation of the country's dwindling and vital forest resources. This article is an attempt to reflect the approach of rational utilization which includes authentic identification, scientific collection, grading, processing, storage, marketing, chemical characterization, education and extension of medical plants that need immediate attention to help protect, conserve and develop the vital natural forest resources.- Early Flowering and Seed Setting in Acacia mengium, Wild
Authors
Source
Indian Forester, Vol 125, No 3 (1999), Pagination: 329-330Abstract
No abstract- Effect of Orientation of Seed Placement and Depth of Sowing on Seedling Emergence in Sterculia urens Roxb.
Authors
Source
Indian Forester, Vol 125, No 7 (1999), Pagination: 720-724Abstract
A study was made to know the influence of orientation of seed placement in soil on seedling emergence in Sterculia urens Roxb. (Sterculiaceae), an important gum yielding tree of deciduous forests. Seeds were sown in soil at 2 cm and 4 cm depth in vertical (micropyle end upward), horizontal (micropylar end sideways) and inverted (micropylar end downward) orientations. Maximum germination (80%) occurred in horizontal and vertical orientation at 4 cm and 2 cm depth respectively. Early emergence and significantly higher seedling vigour occurred when seeds were sown at 2 cm depth in vertical orientation.- Effect of Mycorrhizae on the Growth of Eucalyptus tereticornis Seedlings in Nursery in Different Geo-climatic Conditions
Authors
Source
Indian Forester, Vol 125, No 7 (1999), Pagination: 684-689Abstract
To identify an efficient mycorrhiza for promoting the growth of Eucalyptus tereticornis in nursery, six species of mycorrhizae [Laccaria fraterna (EM-1083), G. fesciculatum, G. mosseae and three VAM consortia dominated by G. mosseae (G. mosseae 85, G. mosseae 88 and G. mosseae 92)] were screened. The screening procedure involved (i) prior to sowing, mycorrhizae application on elite seeds of E. tereticornis in ischolar_main trainer cups at three different geographical locations of India namely Patiala (North India), Choudwar (South-East India) and Sewa (Central East India) containing a potting mix; (ii) allowing germination and growth at 32±2°C in ischolar_main trainer cups, periodic irrigation of seedlings to maintain 30±5% moisture in a greenhouse; and (iii) monitoring the rate of germination, ischolar_main ramification, shoot biomass and general vigour of the seedlings as a function of mycorrhizal infection, 100 days (from sowing until harvesting/transplantation). It was observed that, in nursery studies vis-a-vis control L. fraterna promoted maximum plant biomass at Patiala and Sewa, while G. mosseae 85 at Choudwar. Mycorrhizal strains affected differently at different sites on the basis of height, chlorophyll, and per cent infection.- Impact of Mining on the Flora of Motijharna, Rajmahal Hills (Bihar)
Authors
Source
Indian Forester, Vol 115, No 12 (1989), Pagination: 934-935Abstract
No abstract- Non-destructive Harvesting Practices of Terminalia arjuna (Arjuna), Phyllanthus emblica (Aonla) and Andrographis paniculata (Kalmegh)
Authors
Source
Indian Forester, Vol 137, No 11 (2011), Pagination: 1269-1279Abstract
In recent years the demand of medicinal plants has grown exponentially because of accelerated local, national and international interest, the latter notably from western pharmaceutical industries. Increased market demand resulted in unscientific collection which has put numerous species at the verge of extinction. Non-destructive harvesting is suggested as a way to conserve the medicinal plant resources and provides quality planting material to the pharmaceutical industry. Keeping above into consideration, a study was conducted in Chhattisgarh to develop non-destructive harvesting practices of important medicinal plants. The paper gives an account on non-destructive harvesting practices of Terminalia arjuna (Arjuna: bark), Phyllanthus emblica (Aonla: fruit) and Andrographis paniculata (Kalmegh: herb/panchang). This is the first study on development of non-destructive harvesting practices of above species. In Arjuna, ¼ or '/. of the mature bark of total girth of the tree should be stripped by removing only outer and middle bark leaving the inner bark for regeneration. The length of blaze/strip can be upto 1.20 meter depending upon girth of the trees. Aonla fruits should be harvested after maturity and nearly 10-20% fruits should be left for regeneration. Kalmegh plants should be harvested by cut method as it provides quality herb vis-a-vis improves natural regeneration. Developed non-destructive harvesting practices will be helpful in sustainable management and utilization of medicinal plant resources.Keywords
Medicinal Plants, Non-destructive Harvesting, Arjuna, Aonla, Kalmegh- Mucinous cystadenoma of the appendix: A Case Report
Authors
1 Department of Surgery, All India Institute of Medical Sciences, New Delhi, IN
2 Department of Surgery, Indira Gandhi Medical College Shimla, IN
3 Department of Surgery, All India Institute of medical sciences, New Delhi, IN
4 Department of Radiodiagnosis Max Hospital, Saket New Delhi, IN
5 Department of Radiodiagnosis, All India Institute of Medical Sciences, New Delhi, IN
Source
The Indian Practitioner, Vol 68, No 5 (2015), Pagination: 54-57Abstract
Mucocoele of the appendix is a rare cystic dilatation of the appendiceal lumen caused by mucinous secretions and consecutive retention of mucus. It can be caused by either non-neoplastic or primary epithelial neoplastic disease.1,2 The neoplastic variants are caused by mucus-producing epithelial neoplasms including mucinous adenomas or cystadenomas, mucinous tumours of uncertain malignancy and mucinous cystadenocarcinomas. 2,3,5 Most of these tumours are asymptomatic and may be found incidentally.1,2,5,6,7 Others become symptomatic because of inflammation in, for example, acute appendicitis or as a cause of nonspecific abdominal pain,5 per rectal bleeding, ureteral obstruction, haematuria or intussusception.13 A major complication of neoplastic mucinous appendiceal tumours is the development of pseudomyxoma peritonei, which has a high rate of morbidity and mortality8.Keywords
Case Report, Appendiceal Tumour, Mucinous Cystadenoma, Mucinous Cystadenocarcinoma.- In Vitro Comparative Studies of Anthelmintic Activity of Allium sativum and Ficus religiosa
Authors
1 Institute of Pharmacy, RITEE, Chhatauna, Mandir Hasaud, Raipur, Chhattisgarh, 492101, IN
Source
Research Journal of Science and Technology, Vol 2, No 4 (2010), Pagination: 84-86Abstract
Aqueous extracts of bulb of Allium sativum and bark of Ficus religiosa were taken for anthelmintic activity against Indian earthworm Pheritima posthuma. Three concentrations (25, 50 and 100 mg/ml) of each extracts were studied in activity, which involved the determination of time of paralysis and time of death of the worm. Piperazine citrate (10 mg/ml) was used as a reference standard. Dose dependent activity was observed in both plant extracts but Allium sativum shows more activity as compared to Ficus religiosa. It was concluded that the studied plants had anthelmintic activity. Therefore, in vivo trials may be conducted for further evidence for their use in animals on scientific basis.Keywords
Anthelmintic Activity, Pheritima posthuma, Aqueous Extracts, Allium sativum, Ficus religiosa.- Low Cost Hydroponic Seed Germination Technique for Rangpur lime (Citrus limonia)
Authors
1 Department of Fruit Science, College of Horticulture and Forestry, Central Agricultural University, Pasighat (A.P.), IN
2 College of Horticulture and Forestry, Central Agricultural University, Pasighat (A.P.), IN
Source
The Asian Journal of Horticulture, Vol 11, No 2 (2016), Pagination: 319-322Abstract
Citrus seed being recalcitrant seed, 100 per cent germination is difficult under the field condition. In the hydroponic technique of seed germination, Rangpur Lime germination started after 13 days with the germination percentage of 98.9 per cent as compared to 21.4 per cent in the field condition which germinated after 30-35 days after sowing. This experiment proved to be cheap and better seed germination for the citrus seed, which could be used for the seed propagation for raising ischolar_mainstock.
Keywords
Rangpur Lime, Hydroponics, Field Condition, Germination.- Loranthus Ligustrinus - a Causal Factor for Khasi Mandarin (Citrus reticulata Balnco.) Decline in Arunachal Pradesh
Authors
1 Department of Fruit Science, College of Horticulture and Forestry, Central Agricultural University, Pasighat (Arunachal Pradesh), IN
2 Department of Floriculture, Medicinal and Aromatic Plants, College of Horticulture and Forestry, Central Agricultural University, Pasighat (Arunachal Pradesh), IN
3 Department of Tree Improvements, College of Horticulture and Forestry, Central Agricultural University, Pasighat (Arunachal Pradesh), IN
4 College of Horticulture and Forestry, Central Agricultural University, Pasighat (Arunachal Pradesh), IN
Source
The Asian Journal of Horticulture, Vol 11, No 2 (2016), Pagination: 368-372Abstract
A survey was conducted in the East Siang district of Arunachal Pradesh, India during the period 2013-2014 for the identification of Loranthus species infesting the Khasi mandarin orchards in this region. Study on its habit, mode of seed dispersion, host plants, its life cycle and its management in different sites of East Siang district was conducted. It is identified that the Loranthus species as Helixanthera ligustrina (Loranthus ligustrinus) which flowers during the month of April - May and the seed dispersal is mainly done by two birds viz., Plain flowerpecker and Fire breasted flowerpecker in June-July period. The study also revealed that it is one of the main problems causing Khasi mandarin decline by lowering down its yield and productivity and finally killed the plant after 4-5 years of infestation. This parasitic weed is slowly spreading to other nearby orchards and needs emergency attention for the citrus grower.
Keywords
Helixanthera Ligustrina, Khasi Mandarin, Host Plants, Flowerpecker.- Evaluation and Validation of IPM Technology for Bell Pepper (Capsicum annuum var. frutescens L.) through Farmers' Participatory Approach in Mid Garhwal Hills of Uttarakhand
Authors
1 Department of Plant Pathology, College of Agriculture, G.B. Pant University of Agriculture and Technology, Pantnagar, Udham Singh Nagar (Uttarakhand), IN
2 Department of Entomology, College of Agriculture, G.B. Pant University of Agriculture and Technology, Pantnagar, Udham Singh Nagar (Uttarakhand), IN
3 Department of Economics, College of Agriculture, G.B. Pant University of Agriculture and Technology, Pantnagar, Udham Singh Nagar (Uttarakhand), IN
Source
International Journal of Plant Protection, Vol 9, No 1 (2016), Pagination: 109-114Abstract
Field experiments were conducted to evaluate the formulated IPM programme for the management of insect-pests and diseases in bell pepper (capsicum) in Jadipani village of Chamba block in Tehri Garhwal district (Uttarakhand). Comparative study indicated that IPM module was found to be very effective in terms of suppression of pest infestation and increase in yield over non-IPM. It was found that there was 61.30, 66.98 and 42.99 per cent control of white-grub, cut worm, thrips, respectively, in IPM practiced field as compared to non-IPM practice, respectively. Similarly, 72.27, 53.71 and 49.22 per cent control of damping-off, Colletotrichum leaf spot and Phytophthora fruit rot, respectively, was recorded in IPM practiced field. Analysis of cost benefit ratio of IPM practice revealed that there was 38.64 per cent increase in yield with net return of Rs. 51.87 thousand per hectare and a B:C ratio of 1.46 over farmers' practice. Over all study revealed that the capsicum production under IPM situation proved comparatively more economically viable in terms of suppression of pest which resulted in increase of yield.Keywords
IPM, Capsicum, Colletotricum, Phytophthtora, White-Grub, Cut Worm, Damping-Off.- Analysis of Rate of Investment, Upcoming Industrial Units and Associated New Employment Generation in Kabirdham District of Chhattisgarh State
Authors
1 Pt. Ravishankar Shukla University, Raipur, IN
Source
Asian Journal of Management, Vol 8, No 2 (2017), Pagination: 151-154Abstract
Historically in rural India, agriculture was the only source of income for the locals. But as the infrastructure development took place locals found that there are lot more opportunities to earn their livelihood besides agriculture. The industrial revolution focused on development of manufacturing centres in the suburbs. The manufacturing centres were close to rural regions and hence attracted labour from the nearby villages. This alternate seasonal jobs brought slight decline in agricultural activities. The manufacturing sector was a silver lining for the rural population, however, the manufacturing sector itself was associated with management problems. Poor management of operations, lack of operational amenities such as 24 hours' electricity connection and easy availability of raw materials on manufacturing site were some of the factors responsible for shut down of some of the popular manufacturing units. This study focus on Kabirdham (Kawardha) district of state of Chhattisgarh, the district poses potential to get developed into a manufacturing cluster. But this potential is yet to be harnessed. This research work tries to find out how the employment scenario in the Kabirdham district is changing with time. The population of the district is increasing with large number of youth still unemployed. The study tries to shed light of the job creation aspects present in the district. The results of the research work indicate that the trend for new registration of industrial units is negative in the region. The research work further indicate that rate of employment generation is sluggish in the district and needs to be immediately rectified. The inflow of investment in the district is seventy-three lakhs per year only. The investment is less when there is need for generation of employment for a population which is eight lakhs in strength.Keywords
Employment, Industrial Investment, Kabirdham.- Contributions of Plant Taxonomy, Herbarium and Field Germplasm Bank to Conservation of Threatened Plants:Case Studies from the Himalayas and Eastern and Western Ghats
Authors
1 TDU, Foundation for Revitalisation of Local Health Traditions, Bengaluru 560 106, IN
2 Botanical Survey of India, Shillong 793 003, IN
3 Department of Botany, Goa University, Goa 403 206, IN
4 Department of Botany, University of Delhi, Delhi 110 007, IN
5 CSIR-National Botanical Research Institute (NBRI), Lucknow 226 001, IN
6 Botanical Survey of India, Dehradun 786 006, IN
7 Regional Plant Resource Centre (RPRC), Bhubaneswar 751 105, IN
8 Department of Botany, Gauhati University, Guwahati 781 014, IN
9 Department of Botany, Tripura University, Agartala 799 022, IN
10 Department of Botany, Sri Krishnadevaraya University, Anantapur 515 003, IN
Source
Current Science, Vol 114, No 03 (2018), Pagination: 512-518Abstract
Conservation of biodiversity, a growing concern today, faces multiple challenges. Although ecosystem approach has been recommended as a solution, conservation of threatened species is difficult as they are spread across the ecosystems and are often restricted to microhabitats. In this article, the importance of taxonomy, herbarium and field germplasm bank in conservation of threatened species is discussed. It is concluded that individually each of these measures has important role to play in conservation. They also complement each other in reversing the threat perspective of the species.Keywords
Biodiversity, Conservation, Germplasm Bank, Herbarium, Taxonomy.References
- Pandey, H. N. and Barik, S. K., Ecology, Diversity and Conservation of Plants and Ecosystems in India, Daya Publishing House, New Delhi, 2006.
- Cardinale, B. J. et al., The functional role of producer diversity in ecosystems. Am. J. Bot., 2011, 98, 572–592.
- Joppa, L. N., Roberts, D. L. and Pimm, S. L., How many species of flowering plants are there? Proc. R. Soc. London, Ser. B, 2011, 278, 554–559.
- Irwin, S. J. and Narasimhan, D., Endemic genera of angiosperms in India: a review. Rheedea, 2011, 21(1), 87–105.
- Nayar, M. P., Hotspots of Endemic Plants of India, Nepal and Bhutan, TBGRI, Thiruvananthapuram, 1996.
- Nayar, M. P. and Sastry, A. R. K. (eds), Red Data Book of Indian Plants, Vol I–III, Botanical Survey of India, Kolkata, 1987–1990.
- Mudgal, V. and Hajra, P. K. (eds), Floristic Diversity and Conservation Strategies in India, Vol I–III in the Context of States and Union Territories, Botanical Survey of India, Kolkata, 1999.
- Reddy, S. C., Catalogue of invasive alien flora of India. Life Sci. J., 2008, 5(2), 84–89.
- Hajra, P. K. and Mudgal, V., Plant Diversity Hotspots in India: An Overview, Botanical Survey of India, Kolkata, 1997.
- Singh, P., Dash, S. S. and Kumar, S., New additions to the Indian flora in 2013. Phytotaxonomy, 2015, 15, 1–14.
- Anon., Plant Discoveries, Botanical Survey of India, Kolkata, 2014.
- Hooker, J. D., The Flora of British India, L. Reeve & Co, London, 1872–93, 6 vols.
- Kanjilal, U. N., Kanjilal, P. C., Das, A., De, R. N. and Bor, N. L., Flora of Assam, Government Press, Shillong, 1934–1940, vols. 1–5.
- Geetha, S., Comparative studies using conventional and traditional approaches on propagation of selected medicinal plants. Ph D thesis, Manipal University, 2015.
- Bennet, S. S. R., Name Changes in Flowering Plants of India and Adjacent Regions, Triseas Publishers, Dehradun, 1987.
- Haridasan, K. and Rao, R. R., Forest Flora of Meghalaya, Bishen Singh Mahendra Pal Singh, Dehra Dun, 1987, 2 vols. pp. 548–560.
- Hoo, G. and Tseng, C. J., On the Chinese species of Panax Linn. Acta Phytotaxon. Sin., 1973, 11, 436.
- Nongbri, L. B. and Barik, S. K., Personal communication, 2017.
- Pandey, A. K., Ali, M. A. and Mao, A. A., Genus Panax L. (Araliaceae) in India. Pleione, 2007, 1, 51–56.
- Pandey, A. K., Ali, M. A., Biate, D. L. and Misra, A. K., Molecular systematics of Aralia–Panax complex (Araliaceae) in India based on ITS sequences of nrDNA. Proc. Natl. Acad. Sci. India, Sect. B, 2009, 79, 255–261.
- Henry, A. N. and Bose, C., An Aid to the International Code of Botanical Nomenclature, Today and Tomorrow Printers and Publishers, New Delhi, 1980.
- Mudgal, U. and Jain, S. K., Coptis teeta Wall. local uses, distribution and cultivation. Bull. Bot. Surv. India, 1980, 22, 179–180.
- Basu, S. K., Rattans (canes) in India – a monographic revision. Rattans Information Centre, Kuala Lumpur, Malaysia, 1992.
- Rao, R. R., Floristic diversity of Eastern Himalaya – a national heritage for conservation. In Himalayan Biodiversity (ed. Dhar, U.), Gyanodaya Prakashan, Nainital, 1993, p. 139.
- Seethalakshmi, K. K. and Muktesh Kumar, M. S., Bamboos of India: A Compendium, INBAR & KFRI, Thrissur, 1998.
- Renuka, C., Genetic diversity and conservation of rattans. In Bamboo and Rattan Genetic Resources and Uses (eds Rao, U. R. and Rao, A. N.), IPGRI, Singapore and INBAR, New Delhi, 1995, pp. 39–45.
- Renuka, C., Indian rattans – their diversity and conservation. In Taxonomy and Plant Conservation (eds Manilal, K. S. and Pandey, A. K.), CBS Publishers, New Delhi, 1996.
- Basu, S. K. and Chakraverty, R. K., Calamus inermis T. Anders. In Red Data Book of Indian Plants (eds Nayar, M. P. and Sastry, A. R. K.), Botanical Survey of India, Kolkata, 1990, vol. 3, p. 31.
- Mao, A. A., The genus Rhododendron in north east India. Bot. Orientalis, 2010, 7, 26–34.
- Dessai, J. R. N. and Janarthanam, M. K., The genus Impatiens (Balsaminaceae) in the northern and parts of central Western Ghats. Rheedea, 2011, 21, 23–80.
- Panda, P. C. and Das, P., Identification, nomenclature and distribution of some rare plants of Orissa and adjoining states of India. Rheedea, 1997, 7(1), 57–63.
- Panda, P. C. and Kamila, P. K., Population structure and conservation status of Lasiococca comberi Haines and Hypericumgaitii in India. Plant Sci. Res., 2016, 38, 1–2.
- Barik, S. K., Chrungoo, N. K. and Adhikari, D., Conservation of Threatened Plants of India – A Manual of Methods, North Eastern Hill University, Shillong, 2012.
- Pandey, A. K., Dwivedi, M. D. and Gholami, A., Reproductive biology data in plant systematics: an overview. Int. J. Plant Reprod. Biol., 2016, 8(1), 65–74.
- Jain, S. K. and Rao, R. R., A Handbook of Field and Herbarium Methods, Today and Tomorrow Publishers, New Delhi, 1977.
- Tewari, R., Utility of herbarium resources for seed collections. Indian J. For., 2006, 29(4), 435–438.
- Nayar, M. P., Endemism and pattern of distribution of endemic genera (angiosperms). J. Econ. Taxon. Bot., 1980, 1, 99–110.
- Jain, S. K. and Rao, R. R., An Assessment of Threatened Plants of India, Botanical Survey of India, Howrah, 1983.
- Rao, R. R. and Hajra, P. K., Floristic diversity of the eastern Himalaya – in a conservation perspective. Proc. Indian Acad. Sci., 1986, pp. 103–125.
- Rao, R. R. and Hajra, P. K., Methods of research in ethnobotany. In A Manual of Ethnobotany (ed. Jain, S. K.), Scientific Publishers, Jodhpur, 1987, pp. 33–41.
- Ved, D. K., Kinhal, G. A., Haridasan, K., Ravikumar, K., Ghate, U., Vijaya Shankar, R. and Indresha, J. H., Conservation assessment and management prioritisation for the medicinal plants of Arunachal Pradesh, Assam, Meghalaya and Sikkim. In Proceedings of the workshop, Foundation for Revitalisation of Local Health Traditions, Bangalore, 2003.
- Ravikumar, K. and Ved, D. K., 100 Red Listed Medicinal Plants of Conservation Concern in Southern India. Foundation for Revitalisation of Local Health Traditions (FRLHT), Bangalore, 2000.
- Shenoy, H. S., Rajasekharan, P. E., Souravi, K. and Anand, M., Extended distribution of Madhuca insignis (Radlk.) H.J. Lam. (Sapotaceae) – a critically endangered species in Shimoga District of Karnataka. Zoo’s Print J., 2015.
- Ved, D. K. and Goraya, G. S., Demand and Supply of Medicinal Plants in India, Bishen Singh Mahendra Pal Singh, Dehradun, 2008.
- FRLHT, Conservation and Adaptive Management of Medicinal Plants – A participatory Model: Medicinal Plant Conservation Areas and Medicinal Plant Development Areas, Foundation for Revitalisation of Local Health Traditions, Bangalore, 2006.
- Dogra, P. D., Intraspecific variation, species diversity and gene conservation in Indian forest tree species. In Plant Science Researches in India (eds Trivedi, M. L., Gill, B. S. and Saini, S. S.), Today and Tomorrow Printers and Publishers, New Delhi, 1989, pp. 265–278.
- Bonham C. A., Dulloo, E., Mathur, P., Brahmi, P., Tyagi, R. K. and Upadhyaya, H., Plant genetic resources and germplasm use in India. Asian Biotechnol. Dev. Rev., 2010, 12(3), 17–34.
- Uma Shaanker, R., Ganeshaiah, K. N. and Bawa, K. S. (eds), Forest Genetic Resources: Status, Threats and Conservation Strategies, Oxford & IBH Publishing Co Pvt Ltd, New Delhi, 2001, pp. 165–171.
- Saxena, A., Haridasan, K. and Ahlawat, S. P., Conservation of forest genetic resources of Arunachal Pradesh and Eastern Himalayas. In Forest Genetic Resources: Status, Threats and Conservation Strategies (eds Uma Shaankar, R., Ganeshaiah, K. N. and Bawa, K. S.), Oxford & IBH Publishing Co Pvt Ltd, New Delhi, 2001, pp. 237–251.
- Singh, N. B. and Beniwal, B. S., Genetic improvement of economic species of bamboo in Arunachal Pradesh. Selection of plus bamboo and establishment of germplasm bank. J. Econ. Taxon. Bot., 1988, 12(1), 163–169.
- www.thanal.co.in
- www.navara.in
- Champion, H. G. and Seth, S. K., A Revised Survey of the Forest Types of India, Government of India Press, New Delhi, 1968.
- Renuka, C., How to establish a cane plantation. KFRI Information Bulletin No. 10, Kerala Forest Research Institute, Peechi, 1991.
- Bebber, D. P. et al., Herbaria are a major frontier for species discovery. Proc. Natl. Acad. Sci. USA, 2010, 107, 22169–22171.
- Structure and Genetic Variability of New Populations of Amentotaxus assamica in the Eastern Himalaya, India
Authors
1 Department of Tree Improvement, College of Horticulture and Forestry, Central Agricultural University, Pasighat 791 102, IN
2 ATREE, Royal Enclave, Sriramapura, Jakkur Post, Bengaluru 560 064, IN
3 Botanical Survey of India, Kolkata 700 064, IN
4 College of Horticulture and Forestry, Rani Lakshmi Bai Central Agricultural University, Jhansi 284 003, IN
Source
Current Science, Vol 118, No 8 (2020), Pagination: 1161-1162Abstract
Amentotaxus assamica D.K. Ferguson (common name: Chinese yew) belongs to the gymnospermic family Taxaceae. It is one of the two members of this family found in India, the other being Taxus wallichiana. Amentotaxus is a tall dioecious tree reaching a height of 20 m with horizontal or drooping branches. It is confined to small pockets in the Eastern Himalaya, specifically in Arunachal Pradesh, India. The tree finds usage for making pillars and posts in house construction. Following the ‘critically endangered’ status assigned to the species by the Conservation Assessment and Management Prioritization (CAMP) workshop (February 2003), attempts have been made to locate and assess its population status. Gajurel et al.1 recorded 22 individuals along with five saplings and two seedlings from Mithumna, Dalai Valley, Arunachal Pradesh, the site from where the plant was first reported by F. Kingdom War in 1928. Das et al.2 reported a fairly large population at Turoo forest, Sagalee subdivision, Pampum Pare district, Arunachal Pradesh, having tree density of 40 individuals/ha.References
- Gajurel, P. R., Bora, P. J., Muthu, J. and Sarmah, A., Phytotaxonomy, 2006, 6, 39– 44.
- Das, A. K., Nath, P. C. and Khumbong-mayum, A. D., Indian For., 2008, 134(1), 97–104.
- Ellstrand, N. C. and Elam, D. R., Annu. Rev. Ecol. Syst., 1993, 24, 217–242.
- Archibald, J. K., Wolf, P. G., Tepedino, V. J. and Bair, J., Am. J. Bot., 2001, 88, 608– 615.
- Ravikanth, G., Jagadish, M. R., Vasudeva, R., Uma Shaanker, R. and Aravind, N. A., Curr. Sci., 2018, 114(3), 504–511.
- Shah, A., De-Zhu L., Lian-Ming, G., Hong-Tao, L. and Miller, M., Biochem. Syst. Ecol., 2008, 121, 27–31.
- Mohapatra, K. P., Sehgal, R. N., Sharma, R. K. and Mohapatra, T., New For, 2009, 37, 109–121.