ID: 63741
Title: Forest Biomass and Carbon stock estimation in Kumaun Himalaya using Geospatial approach
Author: Richa Sharma, Smita Chaudhary and Neeraj Kumar Sharma
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (4) 277- 286 (2020)
Subject: Forest Biomass and Carbon stock estimation in Kumaun Himalaya using Geospatial approach
Keywords: Crown cover, Forest type cum crown cover map, AWiFS satellite data, regression equation
Abstract: Forest types of Kumaun Himalaya were mapped using IRS-P6; AWiFS satellite data and integrated with crown cover classes to generate forest type cum crown cover map. A total of 25 categories of crown cover were obtained in 12 forest types. Sampling in different crown cover classes was carried out to measure means stand biomass and mean crown cover in each forest type. Regression equations were developed between ground measured mean stand biomass and mean crown cover. Based on these equations mean biomass for each crown cover class was estimated .Mean biomass values were substituted for crown cover classes in forest type cum crown cover map to prepare biomass maps for the aboveground components of tree. Entire study area exhibited a total biomass of 22.18 x 107 ton, of which contribution of bole, branch, twig and foliage was: 66.6%, 20.9%, 8.4% and 4.7%, respectively. The total carbon stored in the aboveground components of the tree layer existing in the study area was 11.16 x107 ton. The estimates of the biomass and carbon stock are relevant in content of climate change studies and further helpful to advocate forest conservation as a carbon sink in Himalayan region.
Location: T E 15 New Biology building
Literature cited 1: Adhikari B.S., Rawat Y.S. and Singh S.P. (1995) .Structure and function of high altitude forests of Central Himalaya: I. Dry matter dynamics. Annals of Botany, 75: 237-248. Bargali S.S., Singh R.P. and Singh S.P. (1992) .Structure and function of an age series Eucalyptus plantation in Central Himalaya. II. Nutrient Dynamics. Annals of Botany, 69: 413-421.
Literature cited 2: Chaturvedi O.P. (1983) .Biomass structure .Productivity and nutrient cycling in Pinus roxburghii forest, phD Thesis, Kumaun University, Nainital. Chaturvedi O.P. and Singh J.S. (1982) .Total Biomass and biomass production of Pinus roxburghii trees growing in all aged forests. Canadian Journal of Forest Research, 12 (3):632-640.


ID: 63740
Title: Pattern of Crop damage by Asian elephants (Elephas maximus) in Bandipur National Park
Author: H.G. Lingaraju and G.V.Venkataramana
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 254- 260 (2020)
Subject: Pattern of Crop damage by Asian elephants (Elephas maximus) in Bandipur National Park
Keywords: Elephants, Conflict, Crop damage, Losses, Temporal
Abstract: Recorded incidence of conflict between humans and elephants, crop-raiding, is increasing in rural Africa and Asia. This study analysed crop-raiding by Asian elephants (Elephas maximus) around Bandipur National Park consisting of 107 villages during April 2011 to March 2014.Our results show that, 2099 crop incidents were reported during our study period. Many cultivated crops were damaged, and they are categorized into seasonal and plantation crops. Among seasonal crops, the loss of ragi ( 723 quintals was highest , followed by tomato ( 670 quintal) and red gram ( 397 quintal) .Among the plantations , the damage to banana plants was highest (10656 plants) .The relative raiding frequency of sugarcane crop by elephants was found to be highest (21 %followed by ragi (15 %) and banana. Ten crop species were included in the category of “other crops” and contributed to 13 % of all incidents.Net economic loss for both seasonal and annual crops damage was estimated high for the year 2012-13 (INR 27, 08,717) followed by 2011-12 (INR 16, 30, 012) and 2013-14 (INR 15, 36,023) .Crop damage displays broad inter-year variation, it was highest in December and lesser incidents during April and May.
Location: T E 15 New Biology building
Literature cited 1: Barnes R.F.W., Blom A., Alers M.P.T. and Barnes K.L. (1995) .An estimate of the numbers of forest elephants in Gabon, Journal of Tropical Ecology, 11:27-37. Campos-Arceiz A., Takatsuki S, Ekanayaka S.K.K. and Hasegawa T.(2009) .The human-elephant conflict in South –Eastern Sri Lanka: Type of damage , seasonal pattern, and sexual differences in the raiding behaviour of elephants. Gajah, 31:5-14.
Literature cited 2: Distefano E. (2005) Human-Wildlife Conflict worldwide: collection of case studies, analysis of management strategies and good practices. SARD Initiative Report, FAO, Rome. Dunham K.M., Andrea G., Rezia C. And Ferdinado U. (2010) .Human wildlife conflict in Mozambique: A national perspective, with emphasis on wildlife attacks on humans. Oryx, 44(2):185-193.


ID: 63739
Title: Natural Regeneration in Strychnos nux-vomica L. A commercially important Non-timber Forest Product of Tropical dry deciduous forest
Author: A.Mohanty, M.C.Behera and T.L. Mohanty
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 250- 253 (2020)
Subject: Natural Regeneration in Strychnos nux-vomica L. A commercially important Non-timber Forest Product of Tropical dry deciduous forest
Keywords: Natural regeneration, PAR, Tree canopy, Recruits, Strychnos nux-vomica
Abstract: Forest is a very complex and dynamic ecosystem and stability of species mainly governed by regeneration success in community. A study was conducted in Chandaka-Damapara wild life sanctuary, Odisha to evaluate the status of natural regeneration of Strychnos nux-vomica in and around canopy of mother tree. A total 16 plots of 1x1m size was laid out per treat four distances (1, 4, 7 and 10m distances from the trees. in four directions( east, west, south and north) for thirty trees spreading over six sites Observations on new recruits , unestablished seedlings (<2.0m height) and established regeneration ( >2.0m height) were taken in predetermined quadrats and compared for canopy diameter and PAR (Photosynthetically active radiation) .Mean number of regenerates per m2 per tree was recorded 7.56.Maximum number of recruits was observed at 7.0 m distance from mother tree receiving PAR 872.40 µmol m-2s-1.Survivability of new recruits at the end of growing season was poor within canopy spread area mother tree. Only 0.50 established regenerates per m2 per tree were observed.
Location: T E 15 New Biology building
Literature cited 1: Behera M.C. Mohanty T.L. and Paramanik B.K. (2017) .Silvics, phytochemistry and ethnopharmacy of endangered poison nut tree (Strychnos nux-vomica) L) :A review .Journal of Pharmacognosy and Phytochemistry, 6 (5) :1207-1216. Bhati R., Singh A., Saharan V.A., Ram V and Bhandari A. (2012) Strychnos nux-vomica seeds: Pharmacognostical standardization, extraction, extraction, and antidiabetic activity. Journal of Ayurveda and Integrative Medicine, 3 (2): 80-84.
Literature cited 2: Dalling J.W., Hubbell S.P and Silvera K. (1998) .Seed dispersal, seedling emergence and gap portioning in gap-dependent tropical tree species. Journal of Ecology, 86: 674-689. Gomez-Pompa A., Vazquez-Yanes C. And Guevara S. (1972) .The tropical rain forest: a non-renewable resource. Science, 177:762-765.


ID: 63738
Title: Diversity and seasonal Ginkgolide variation in old and young trees of Ginkgo biloba L.
Author: Shilpi Paul, Monisha Bisht, Gopal Singh and Shivani Yadav
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 242- 249 (2020)
Subject: Diversity and seasonal Ginkgolide variation in old and young trees of Ginkgo biloba
Keywords: Ginkgo biloba, Ginkgolides, AFLP, Genetic diversity, Seasonal variation
Abstract: The Ginkgo biloba L. often referred as a living fossil and being the only living member of the Ginkgo family (Ginkgoaceae), only few old established trees and their cuttings are growing in India. It has huge demand in the Global market for various medicinal products. In view of its conservation management and market demand an attempt has been made to analyze the old trees grows in western Himalaya of IHR and their comparison with newly seed raised plants at the chemical and molecular levels. Leaf samples of 10 young trees (seed raised, age about 3 years) and 7 old trees (age 35-150 years) were taken for phenotypic and molecular analyses.Prot3in profile showed segregating band of size 19 k kDA in new trees and the old tree of Rajbhawan showed a specific 20 kDA protein band. In AFLP analysis, 958 loci were observed, of which 449 were polymorphic revealing 47.46% polymorphism in overall genotypes. Cluster analyses indicated that all the seed raised new trees were in one group while the old established trees were in another group. Seasonal variation in gonkgolide content was observed in the samples collected at different times (April, June and October) during the year to complete the cycle and optimize the harvesting time of active principle. The HPLC analysis showed highest levels of ginkgolide (1.5 % DW) and B (0.19% dry wt. Basis) in samples collected during the month of June. Gingkgolide A GBA) ranged from 0.3-1.5% (dry wt. basis), while ginkgolide B (GBB) ranged between 0.106-0.19% (dry wt. basis) throughout the season. The results of the study will be presented and discussed in the light of developing strategies for harvesting leaf samples for ginkgolides, developing conservation, and management’s strategies and introducing new seed raised plants for maintaining genetic diversity.
Location: T E 15 New Biology building
Literature cited 1: Anderson J.A., Churchill J.E., Autrique S.D. and Tanksley Sorrells M.E. (1993) .Optimizing parental selection for genetic linkage maps. Genome, 36: 181-188. Bradford M.M (1976) .A rapid and sensitive method for the quantization of microgram quantities of protein utilizing the principle of protein dye binding. Anly Biochem, 72:248-254.
Literature cited 2: Chen X.Y. (1999) .Population genetics consideration for ecological restoration. Resources and Environment in the Yantze Basin, 9: 313-319. Ganzera M., Jianping A., Zhao A. And Khan I.A. (2001) .Analysis of Terpenelactones in Ginkgo biloba by high Performance Liquid Chromatography and Evaporative Light Scattering Detection. hem Pharm Bull., 49 (9): 1170-1173.


ID: 63737
Title: Ethnomedicobotany of different Tribals of Indo Nepal Sub Himalayan International Border Region of Pilibhit Tiger Reserve (PTR) India
Author: Shilpa Vakshasya and Gopal Dixit
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 235- 241 (2020)
Subject: Ethnomedicobotany of different Tribals of Indo Nepal Sub Himalayan International Border Region of Pilibhit Tiger Reserve (PTR) India
Keywords: Ethnomedicobotany, Tribals, Indo-Nepal International Border Region, Pilibhit Tiger Reserve (PTR)
Abstract: The Present study deals with the detailed ethnomedicobotanical observations on the usage of plants in the treatment of various human ailments by tribal and rural people of the study area. The findings are summarized as enumeration after in depth exploration of different plants used as ethnomedicines. Most of them were growing wild in the vicinity of forests of Pilibhit Tiger Reserve (PTR) .Investigation were carried out during 2016-2018 in 37 tribal inhabiting localities and villages of Indo-Nepal sub–Himalayan International border region of Pilibhit district of Uttar Pradesh, India.45 plant species were recorded from the study area including 40 dicots and 5 monocots. Among them 8 species of trees, 08 of shrubs, 24 herbs, 03 grasses, 01 climber and 01 parasitic species was recorded. To maintain these natural resources, effective conservation and management practices are required.
Location: T E 15 New Biology building
Literature cited 1: Dixit S.V. and Dixit G. (2008) .Folk Medicinal Plants of Indo-Nepal sub Himalayan terai region of Pilibhit district of Rohilkhand Division, Uttar Pradesh. Intl. J. for Usuf. Mngt., 9 (1):65-74. Dixit Gopal (2004) .Ethnomedicobotany and Human Welfare: A Graphic review and future Directions. In: Ethnomedicine inhuman Welfare (I.A. Khan and A.Khanam eds.) Ukaaz Publ. Hyderabad, pp.172-207.
Literature cited 2: Dixit G. (2009) .Indigenous/Traditional Medicines: Challenges and Bttlenecks. In: Proceeding: ICTAM-VII. International Congress on Traditional Asian Medicine, Intl. Assan. for the Study of Traditional Asian Medicine 9IASTAM) , Thimpu, Bhutan. Dixit G. (2018) .Ethnomedicianal plants used by tharu tribe o Indo Nepal sub Himalayan terai region of Rohilkhand division Scientific Rationality and Socio-Cultural Changes, Govt P..College, Bisalpur, Pilibhit, India.


ID: 63736
Title: Ecological status of Angiospermic Macrophytes in Retension Ponds and Drainage Ditches of Jalpaiguri District, West Bengal, India
Author: Mallika Mazumder and Anup Kumar Sarkar
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 226- 234 (2020)
Subject: Ecological status of Angiospermic Macrophytes in Retension Ponds and Drainage Ditches of Jalpaiguri District, West Bengal, India
Keywords: Macrophytes, Jalpaiguri, Underutilized Aquatic Body, Fresh water ecosystems, weed.
Abstract: Aquatic angiosperms are very remarkable components of aquatic systems which are very important for the conservation of any biodiversity region. Though the macrophytic communities of rivers, lakes and large aquatic bodies of many biodiversity regions were recorded properly but the macrophytes of small retension pond and drainage ditches were neglected as these are underutilized aquatic bodies. The condition is also same for the district Jalpaiguri. The present study is therefore designed to enumerate the aquatic macrophytes of Retension Ponds and Drainage Ditches of Jalpaiguri District, West Bengal, India. The studies were conducted in between January 2017 to May 2019.In this study 201 angiosperms were recorded under 48 families.
Location: T E 15 New Biology building
Literature cited 1: Adelakun K.M.,Kehinde A.S., Amali R.P., Ogundiwin D.I. and Omotayo O.L. (2016) .Nutritional and Phytochemical Quality of some Tropical Aquatic Plants. Poultry, Fisheries and Wildlife Sciences, 4 (2):1-4. Adigun B.A. (2005) .Water Quality Management In Aquaculture and Freshwater Zooplankton. Innovative Venture Press, Niger State, 1-15.
Literature cited 2: Ali N., Chaudhary B.L. and Khandelwal S.K. (2004) .Better use of water hyacinth for fuel, manure and pollution free environment. Indian Journal of Environmental Protection, 24: 297-303. Bini L.M., Oliveria L.G., Souza D.C., Cavalho P. and Pinto M.P. (2005) .Patterns of the aquatic macrophytes cover in Cachoeira dourada Reservoir (GO-MG) .Brazilian Journal of Biology, 65 (1): 19-24.


ID: 63735
Title: Molecular characterization of Calamus guruba and Calamus gracils for their genetic diversity and phylogeny
Author: Garima Dutt, Hans Raj Pratibha Sharma, Maneesh S. Bhandari, Rama Kant and Rajendra K.Meena
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 219- 225 (2020)
Subject: Molecular characterization of Calamus guruba and Calamus gracils for their genetic diversity and phylogeny
Keywords: Calamus guruba, Calamus gracilis, Genetic diversity, Genetic differentiation, ISSR marker
Abstract: Two rattan species Calamus guruba and C. gracilis of Mizoram were taken up for molecular characterization through inter simple sequence repeat (ISSR) markers. A total of 235 bands were generated in both the species when subjected to PCR amplification with 10 ISSR primers and all were found polymorphic across the species. As per the ISSR calculated value of various diversity measures, gene diversity recorded in C.guruba (percentage of polymorphic bands, P% =65.11; Shannon’s information indices, I=0.247) and C.gracillis (P%=57.02%; I=0.228) were lesser than other rattan species. As the sampled populations belonged to two different species, high level of variation was observed among the species (45% ) which resulted in greater genetic differentiation (PhiPT=0.453 and GST:0.261) and less gene flow (Nm =1.416).Genetic distinctness was also was also shown by the presence of large number of private bands in both the species. Also the genotypes of both the species were grouped into two distinct clusters in dendrogram generated with un-weighted pair group method with arithmetic averages (UPGMA) and plot of principal coordinate analysis (PCoA).The analysis of molecular variance revealed that 55 % of the variation exists within the species and 45 % between the species. Based upon the field observation and data generated her in, it is recommended that the natural populations are reduced and marked with lower genetic diversity, and therefore required suitable conservation measures.
Location: T E 15 New Biology building
Literature cited 1: Asra R., Syamsuardi Mansyurdin and Witono J.R. (2014) .The study of genetic diversity of Daemonorops draco (Palmae) using ISSR markers. Biodiversitas, 15:109-114. Bacilieri R. (1996).Evaluation of rattan genetic diversity by using geneticmarkers. In: Rattan Taxonomy, Ecology, Silviculture, Conservation, Genetic improvement and Biotechnology (A.N. Rao and V.R. Rao, Eds) .IPGTRI and INBAR, pp.114.
Literature cited 2: Bon M.C. (1996) .Ex-situ conservation and evaluation of rattan resources. In: Rattan Taxonomy, Ecology, Silviculture, Conservation, Genetic improvement and Biotechnology (A.N. Rao and V.R. Rao Eds.) ,IPGRI and INBAR,pp.165-172. Doyle J.J. and Doyle J.L., (1987) .A rapid DNA isolation procedure for small quantities of fresh leaf material. Phytochemical Bulletin, 19: 11-15.


ID: 63734
Title: Effect of Accelerated ageing on seed grading of Diploknema butyracea
Author: Nawa Bahar
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 213- 218 (2020)
Subject: Effect of Accelerated ageing on seed grading of Diploknema butyracea
Keywords: Diploknema butyracea, Seed grading, Accelerated ageing, Vigour.
Abstract: Effect of accelerated ageing on Diploknema butyracea seed was investigated to evaluate their potential in term of germinability, seedling length, dry matter production and seedling vigour index. Highest seedling vigour index was estimated in larger sized seed (2100.79). However, lowest seedling vigour index was found in smaller sized seed (1209-43). A high vigour seed lot has good storage potential and retains high germination potential during storage, whereas low vigour seed lots show poor storage potential and may show a rapid decline in germination.
Location: T E 15 New Biology building
Literature cited 1: Abdul-Baki A.A and Anderson J.D. (1973) .Seed vigour index. Crop science, 13: 620-632. Austin R.B. (1972).Effects of environment before harvesting .In E.H. Roberts (ed.), Viability of seeds (pp.209 252) Syracuse, NY: Syracuse University Press.
Literature cited 2: Burris J.S., Wahab A.H.and Edje O.T. (1971) .Effects of seed size on seedling performance in soybeans: I. Seedling growth and respiration in the dark. Crop Science, 11:429-436. Burris J.S. (1973). Effect of seed size on seedling performance of soybean: 1.Seedling growth and photosysnthesis, and field performance. Crop Science, 13:207-210.


ID: 63733
Title: Variation in Soil carbon stock of Tree based land use systems intemperate zone of Kashmir Himalaya
Author: Kaiser Iqbal, Jahangeer A.Bhat, Nazir A.Pala, Aatif Hussain, Showkat Aziem and A.K.Negi
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 208- 212 (2020)
Subject: Variation in Soil carbon stock of Tree based land use systems intemperate zone of Kashmir Himalaya
Keywords: Himalaya, Soil, Acidity, Stocks, Texture
Abstract: The present study was conducted to estimate soil carbon stock in various land-use system viz., grassland, pine forest, apple orchard and walnut orchard in the Shopian district of Kashmir valley. Soil sampling was done by nested plot design method. Soil organic carbon was measured at two depths (0-30 cm and 30-60 cm) .A total of 24 soil samples from each landuse with 09 composite samples were collected by laying down plots of 40 m x 5 m size. The overall mean soil organic carbon stocks varied from highest of (45.20 ± 1 2.11 Mgha-1) in Pine forest to lowest of (33.20 ± 8.36) Mgha-1) in grassland. Depth wise mean range of soil organic carbon (SOC) stock varied from 3.25± 1.51 in pine forest to 3.1± 0.09 Mg C ha-1 in walnut orchard at 0-30 cm, respectively. The values of SOC (%) showed the decreasing trend with an increase in soil depth. The proportion of soil texture was sand >silt>clay in two land use systems viz., pine forest and apple orchard. The concentration of Soil Organic Carbon (SOC) stocks varies in accordance to the type of land use, the inputs to the soil, and natural factors including climate and vegetation.
Location: T E 15 New Biology building
Literature cited 1: Abbasi M.K., Zafar M. and Khan S.R. (2007).Influence of different land-cover types n the changes of selected soil properties in the mountain region of Rawalokot Azad Jammu and Kashmir, Nutrient Cycling in Agroecosystems, 78: 97-110. Baker J.M., Ochsner T.E., Venterea R.T and Griffis T.J. (2007) .Tillage and soil carbon sequestration –What do we really know? Agricultural Ecosystem and Environment, 118:1-5.
Literature cited 2: Batjes N.H. (1996) .Total carbon and nitrogen in the soils of the world. Eur. Journal of Soil Science, 47: 151-163. Bergkamp G. and Jongejans J. (1998) .The stability of Soil aggregates in the middle mountains of Nepal. University of Amsterdam, Amsterdam, Netherlands (1998).


ID: 63732
Title: Carbon stock Assessment along Altitudes in Agrisilviculture Systems of Tehri District, Uttarakhand, North Western Himalaya- a case study of Pratapnagar block
Author: K.K.Vikrant, D.S. Chauhan and R.H. Rizvi
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 202- 207 (2020)
Subject: Carbon stock Assessment along Altitudes in Agrisilviculture Systems of Tehri District, Uttarakhand, North Western Himalaya- a case study of Pratapnagar block
Keywords: Climate change, Agroforestry, Carbon stock, Altitudes, Agrisilviculture system
Abstract: Aroforestry represents an integration of agriculture and forestry to increase productivity and sustainability of farming systems and farm income. Agroforestry is a viable alternative to prevent and mitigate climate change. This study therefore aimed to generate data on the carbon stocks of agrisilviculture systems located in the Tehri district of Uttarakhand. The methodologies used include measurement of trees and diameter breast height (dbh) and sampling of branch, leaf, crops and soil for carbon content determination. Present results showed that carbon accumulation of agroforestry system goes along with the following order; upper altitude (2000-2800 m) >middle altitude (1200-2000m) >lower altitude (286-1200 m) .Thus agrisilviculture are not only remunerative to the farmers but also contributing towards tapping of atmospheric C02 vis-vis mitigation of climate change. Policy program promoting the establishment of agroforestry systems in ideal lands in Tehri district should be considered.
Location: T E 15 New Biology building
Literature cited 1: Albrecht A. And Kandji S.T. (2003) .Carbon sequestration in tropical agroforestry systems. Agriculture Ecosystem and Environment, 99:15-27. Atul P. and Khosla P.K. (1990) .Agroforestry system for sustainable land use. Oxford and IBH publication, New Delhi, 221-227 pp.
Literature cited 2: Babu K., Dhinesh ,Patel R.K., Deka B.C. and Bujabaruah K.M.(2011) .Maturity indices for harvesting of lower chilling peach cultivars under mid-hill condition of Meghalaya. Acta Horticultue, 890 (40): 449-455. Bhadwaj D.R., Sanneh A., Bhalendra ,Singh Rajput and Kumar Sanjeev (2013) .Status of Soil Organic Carbon Stocks Under Different Land Use Systems in Wet Temperate North Western Himalaya. Journal of Tree Sciences, 32 (1and 2): 14-22.


ID: 63731
Title: A Review of Experiments/Research Studies across the Globe in India –Assessing the Efficacy and Efficiency of Tree Transplantation
Author: Hari Shankar Gupta and Ankita Sinha
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 195- 204 (2020)
Subject: A Review of Experiments/Research Studies across the Globe in India –Assessing the Efficacy and Efficiency of Tree Transplantation
Keywords: Tree transplantation, Transplantation protocol, Survival, Cost effectiveness
Abstract: Due to urbanization and large infrastructure development projects, which need large areas to be cleared and hence removal of existing trees becomes inevitable. Ith technological advancement, tree plantation has emerged as suitable technical option to save trees which also offers solution to couple the benefits of growth and development by relocating them to new location. This paper attempts to assess the potential and effectiveness of tree transplantation by reviewing different research studies, real time experience of global as well as national level. All the research evidences, available at global level and at India’s level suggest that this technique is useful only for trees in the context of its being very rare, historical or significantly important from several criteria, otherwise it is still not a very cost-effective action. Knowledge of the effects of season of transplanting, post transplantation measures, damage evaluation of root system and cost of transplantation on establishment of landscape is prerequisite and commensurate action is desirable for effective tree plantation.
Location: T E 15 New Biology building
Literature cited 1: Agrawal P.(2018) .A tree’s change of address, The Tribune. Annon (2015) .Green Highways (Plantation, Transplantation, Beautification and Maintenance) Policy-2015, Government of India, Ministry of Road Transport and Highway, New Delhi, 2015.
Literature cited 2: Anon.,(2016a) .Transplantations along National Highways as measure for carbon sequestration. Proceeding of the Workshop organized by National Green Highways Mission, NHAI MORTH and The Energy Research Institute. Anon (2018) .Meeting report of C.F. (TC) Hazaribagh for review of works related to NH33 in Hazaribagh, Jharkhand.


ID: 63730
Title: Biodiversity and Updated Checklist of Moth Caterpillar-Fauna (Lepidoptera), Damaging host tree and plant Species of Jammu, Kashmir and Ladakh (India)
Author: R.C. Bhagat
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 173- 180 (2020)
Subject: Biodiversity and Updated Checklist of Moth Caterpillar-Fauna (Lepidoptera), Damaging host tree and plant Species of Jammu, Kashmir and Ladakh (India)
Keywords: Moth caterpillars, 19 families, Checklist, Diversity, Jammu, Kashmir and Ladakh
Abstract: This paper deals with 54 species under 44 genera of moth caterpillars of Jammu, Kashmir and Ladakh region of India, belonging to 19 families under 11 super –families , affecting more than 52 diverse host tree and plant species, including valuable agricultural crops, trees and plant species. The various Super-families, with total number of caterpillar species are: Bombycoids (13 spp) , Cossoids (2) ,Gelechoids (11) ,Geometroids (5) ,Gracillaroids (2) ,Lasiocompoids (2) ,Noctuoids (7) ,Pyraloids (6) ,Sesiod (1) ,Tineoids (2) Yponomeutoids(3) The highest number of caterpillar species i.e. 7, has been found to damage plum fruit tree, followed by 6 spp. each, affecting apple and poplar trees, and 5 spp. damaging willow trees.4 species each of caterpillar , are known to severely damage peach and mulberry trees respectively. Rest of the host tree /plant species are affected either by 3spp.or 2 spp. or 1 sp. of moth caterpillars. An up-to date systematic/annotated checklist of catter pillar-fauna has been provided .In addition to this, biodiversity of caterpillars affecting hosts of different kinds from vast localities and areas of Jammu, Kashmir and Ladakh, has been briefly been discussed.
Location: T E 15 New Biology building
Literature cited 1: Ahmad D. and Bhat M.R.(1987) .Insect Pests of apple trees in Kashmir. Geobios new Rept., 6(1): 60-63. Ananad M., Sharma M.L. and Mathur A.C. (1962) .Syngamiaabruptalis Walk (Pyralidae: Lepidoptera), defoliator of Mentha arvensis Linn sub. sp. haplocalyx var. Piparacens Hel. Indian J. Ent., 23 (4) :4
Literature cited 2: Anon (1997) .Pests of Mulberry and their management, in: pp.36-38.Brief Report Central Sericulture and Training Institute, Pampore (Central Silk Board), Ministry of Textile, Govt. Of India. Anon. (2017a) .Global Biodiversity Information Facility .www.gbif.org/Species.


ID: 63729
Title: Fibre Dimorhism in Secondary Xylem of Family Lauraceae from Erstwhile India
Author: Sangeeta Gupta and Dheerendra Kumar
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 165- 172 (2020)
Subject: Fibre Dimorhism in Secondary Xylem of Family Lauraceae from Erstwhile India
Keywords: Lauraceae, Wood fibres, Parenchyma-like-Fibres, Fibre dimorphism, Storage fibres
Abstract: Secondary xylem of Forty seven species of family Lauraceae was studied for fibre dimorphism (i.e. species having both Fibres and Parenchyma-like-Fibres) .These species fall under eleven genera viz. Actinodaphne, Alseodaphne, Beilschmiedia, Cinnamomum, Cryptocarya, Dehaasia, Lindera, Litsea, Neolitsea, Persea and Phoebe. Parenchyma-like-Fibres (PLF) were found to be present in 90% of the species of this family and have not been reported earlier.PLF were observed both in wood section and maceration. The PLF was found to be species specific. However, within a species variation with regards to amount of PLF was observed based on which 12 categories were made. The septation in PLF was observed to be independent of fibre septation.PLF were not observed in 5 species viz. Actinodaphne tedulingami, seodaphne semicarpifolia, B.fagifolia, Cinnamomum glanduliferum and C.zeylanicum. Statistical analysis inferred that the volume of fibre and volume of PLF showed significant linear correlation relationship which indicates that PLF are basically storage fibres with more lumen and lesser wall thickness and length.
Location: T E 15 New Biology building
Literature cited 1: Baas P., Zweypfenning R.C.V.J. 91979) .Wood Anatomy of the Lythraceae. Acta Bot.Neeri.28:117-155. Bonsen K.J., Ter Welle BJH (1984) .Systematic wood anatomy and affinities of the Urticaceae.Bot.Jahrb.Syst.105:49-71.
Literature cited 2: Bor N.L. (1953) .Manual of India Forest Botany .Bombay. Carlquist S. (1957) .Wood Anatomy of Multisieae (Compositae) .Trop. Woods, 106:29-45


ID: 63728
Title: Potential of Homestead Gardens to gain from global carbon markets to mitigate climate change in Cooch Behar, West Bengal
Author: Nazir A.Pala, Biplov C.Sarkar, Yogesh Gokhale, Abha Manohar K., Gopal Shukla and Sumit Chakravarty
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 159- 164 (2020)
Subject: Potential of Homestead Gardens to gain from global carbon markets to mitigate climate change in Cooch Behar, West Bengal
Keywords: Homestead garden, International carbon market, Carbon Credit, Plantation, Model, Livelihood, West Bengal
Abstract: Under Paris Agreement on Climate Change India has pledged for creating an additional 2.5 to 3 billion tons of CO2 equivalent by 2030.In this context strengthening of traditional agro-forestry and homestead garden systems practically spread all over India would be important for creating carbon sinks. International Compliance as well as Voluntary Carbon Markets provides excellent opportunities to incentivize the local communities by getting carbon credits from agro-forestry plantations. In the present study a total of 45 homestead gardens from three villages in Pundibari area of Cooch-Behar-II Block of district Cooch Behar, West Bengal are selected for study purpose. The study demonstrates carbon sequestration potential and avoided deforestation due to the maintenance of the homestead gardens. These homestead gardens also play an important role in maintaining the diversity of the domesticated trees covering a total of 71 woody tree species belonging to 59 genera and 30 families .Total biomass of 7482.67 Mg is stored among all the woody species in all the 45 home gardens .The total live biomass has the potential to offset 507.4 Mg CO2e .The homestead gardens produce 10.6 Mg of fuelwood/ year and 39.15 Mg of fodder /year which reduce the dependence on the natural forests. Thus by avoided deforestation and forest degradation in Cooch Block II there is net gain of 247.06 Mg of CO2e annually. The monetary value of live carbon offsets estimated is US$28.22 with assumed value of 2.5USD per VER/CER in the present study annually. A cluster based approach by bundling together villages in the entire Cooch Behar-II Block would result in approximately sequestering 2058051.8 ton CO2e and hence would claim US$ 5, 145, 129.5 per annum for maintaining and strengthening the ecosystem services from homestead gardens for livelihood sustenance.
Location: T E 15 New Biology building
Literature cited 1: Adoption of the Paris Agreement, UNFCCC Conference of the Parties, Decision 1/CP.21, Report of the Conference of the Parties on its twenty-first session (30 November to 13 December 2015), Addendum, Part two: Action taken by the Conference of the Parties at its twenty-first session, FCCC/CP/2015/10/Add.1, 29 January 2016, preambular recital 3, and Articles 2.2, 3, 4.3 and 4.19. http://unfccc.int/resource/docs/2015/cop21/eng/10a01.pdf.
Literature cited 2: Agrawal A. And Angelsen A. (2009) .Using Community Forest Management of Achieve REDD+ Goals. In Realising REDD+: National Strategies and Policy Options, ed. A. Angelsen, Bogor: CIFOR, 201-212 pp. Literature Cited 2: Anon.(2001) 4th Working Plan for the Forests of Cooch Behar district and Jalpaiguri district (Part) Comprising Cooch Behar Forest Division and Cooch Behar S.F. Division Volume 1, 2000-01 to 2009-10.Divisional Forest Officer, Working Plans (North ) Divison, Darjeeling. Bitterlich W. (1984).The Relascope idea. Relative Measurements in Forestry. Farnham Royal: Commonwealth Agricultural Bureaux.


ID: 63727
Title: Plant Taxonomic Diversity: An Assessment on Gandhamardan hill range of Western Odisha, India
Author: A.K. Bhadra, S.K. Pattanayak and N.K. Dhal
Editor: Aarti Chaudhary
Year: 2020
Publisher: Indian Council of Forestry Research & Education.
Source: ENVIS, CES & EWRG, CES
Reference: The Indian Forester Vol. 146 (2) 148- 158 (2020)
Subject: Plant Taxonomic Diversity
Keywords: Taxonomic diversity, Gandhamardan, Western Odisha
Abstract: Present study records 232 plant species which is8.5% of total 2727 species found in Odisha. All species are distributed over six prevalent forest types such as tropical semi-evergreen forest, Tropical dry-deciduous forest, Scrub-woodland, Bamboo forest, Scrub forest and Grass land of Gandhamardan hill ranges. Tree, shrub, LTC (Lianas, Twinner and Climber) and herb represent 37.50%, 15.09%, 12.07% and 35.34% of the total species.232 plant species comes under 189 genera and 66 families. Tree community having GBH>15cm (Tree-1) consists of 86 species, 71 genera and 35families.Tree community having GBH <15cm (Tree -2) has 58 species, 51 genera and 30 families. Shrub community represents 34 species, 33 genera and 23 families. LTC represents 26 species, 21 genera and 12 families. Herb community represents 82 species, 69 genera and 25 families. Similarly, seedling community is having 101 species, 90 genera and 44 families. The ten most dominant families in the region are Poaceae, Fabaceae, Rubiaceae, Euphorbiaceae, Acanthaceae, Lamiaceae, 189 genera are represented by single species. In other words, 69% of total species occurrence is spread over 85 % of total genera which indicates the higher taxonomic diversity of the forest area.
Location: T E 15 New Biology building
Literature cited 1: Adoption of the Paris agreement, UNFCCC Conference of the Parties, Decision 1/CP.21, Report of the Conference of the Parties on its twenty-first session (30 November to 13 December 2015) ,Addendum, Part two: Action taken by the Conference of the Parties at its twenty-first session, FCCC/CP/2015/10/Add.1, 29 January 2016,Preambular recital 3, and Articles 2,2,3,4.3 and 4.19.http://unfccc.int/resource/docs/2015/cop21/eng/10a01.pdf. Agarawal A and Angelsen A. (2009) .Using Community Forest Management to Achieve REDD+ Goals. In Realising REDD+: National Strategies and Policy Options, ed. A. Angelsen, Bogor: CIFOR, 201-212 pp.
Literature cited 2: Anon. (2001) .4th Working Plan for the Forests of Cooch Behar district and Jalpaiguri district (Part) Comprising Cooch Behar Forest Division and Cooch Behar S.F. Division Volume 1, 2000-01 to 2009-10.Divisonal Forest Officer, Working Plans (North) Division, Darjeeling. Bitterlich W. (1984) .The Relasxodpe Idea. Relative Measurements in Forestry. Farnham Royal: Commonwealth Agricultural Bureaux.