VEGETOS: An International Journal of Plant Research & Biotechnology
(Society For Plant Research)

Research Articles

A SOCIETY FOR PLANT RESEARCH PUBLICATION


Volume: 34, Issue: 3, September 2021


Print ISSN : 0970-4078.
Online ISSN : 2229-4473.
Website:www.vegetosindia.org
Pub Email: contact@vegetosindia.org
Views: 114

Doi: 10.1007/s42535-021-00222-0
Doi Link: https://doi.org/10.1007/s42535-021-00222-0
First Page: 630
Last Page: 637
Published: 29 May, 2021

Modelling potentially suitable lac cultivation zones of Butea monosperma to promote livelihood security in rural India


Abstract:

The present paper highlights the importance of lac cultivation through Butea monosperma. We have modelled the suitable habitat of major lac host B. monosperma using MAXENT for the current and future climatic scenarios (RCPs 2.6, 4.5, 6.0 and 8.5). The study suggested the dominance of suitable habitats of B. monosperma in central-eastern to eastern and southern parts of the country. Temperature seasonality (Bio_4) was the most significant bioclimatic variable in regulating the distribution of B. monosperma followed by elevation and annual precipitation (Bio_13). The projection for the year 2050 suggested the habitat shift towards the eastern and southern parts. The study indicated the major habitat of B. monosperma continued to exist in the Chotanagpur plateau in eastern India. The model predicted approximately a 9–13% decrease in the overall potential habitat of B. monosperma by 2050, and the distribution of species would be nearly extinct from the northern and western parts. Presently, only the 5% lac host trees are being utilised for lac cultivation, and the study suggested that conservation and promotion of B. monosperma on projected suitable habitats and even by utilising 25% of resources, the lac production may jump manifold catering to global demand, rural economy and employment and shall contribute towards ‘Self Reliant India’.


Keywords:


n B. monosperman , Climate, Lac cultivation, Livelihood security, Maxent


References:


  1. Bargali SS, Joshi M, Bargali K (1992) Seasonal pattern of total soil respiration in age series of eucalypt plantation and mixed broad-leaved forest in tarai belt of Kumaun Himalaya. Oecologia Montana 2:7–11

  2. Bargali SS, Singh RP, Joshi M (1993) Changes in soil characteristics in eucalypt plantations replacing natural broad leaved forests. J Veg Sci 4:25–28

  3. Bargali SS, Padalia K, Bargali K (2019) Effects of tree fostering on soil health and microbial biomass under different land use systems in central Himalaya. Land Degrad Dev 30(16):1984–1998. https://doi.org/10.1002/ldr.3394

  4. Chitale V, Behera M (2012) Can the distribution of sal (Shorea robusta Gaertn. f.) shift in the northeastern direction in India due to changing climate? Curr Sci 102(8):1126–1135

  5. Costanza R, D’arge R, Groot RD, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, O’neill RV, Paruelo J, Raskin RG, Sutton P, Belt MVD (1997) The value of the world’s ecosystem services and natural capital. Nature 387:253–260

  6. Das R, Kumar A (2013) Lac cultivation and rural livelihood. In: Kumar A, Das R (eds) Prospects of scientific lac cultivation in India. IFP, pp 217–231

  7. Davidar P, Sahoo S, Mammen PC, Acharya P, Puyravaud JP, Arjunan M, Garrigues JP, Roessingh K (2010) Assessing the extent and causes of forest degradation in India: Where do we stand? Biol Cons 143:2937–2944

  8. Deb JC, Phinn S, Butt N, McAlpine CA (2017) The impact of climate change on the distribution of two threatened Dipterocarp trees. Ecol Evol 7(7):2238–2248

  9. Deogade M (2016) Literature review of Palash (Butea monosperma Lamk. Taub). Int Ayurvedic Med J 1:101–106

  10.  

  11. FAO and UNEP (2020) The State of the World’s forests 2020. Forests, biodiversity and people. FAO and UNEP, Rome, p 397. https://doi.org/10.4060/ca8642en (214)

  12.  

  13.  

  14. Ghosal S (2013) Management of host pants for lac cultivation. In: Kumar A, Das R (eds) Prospects of scientific lac cultivation in India. IFP, pp 48–58

  15. Htun NZ, Mizoue N, Yoshida S (2011) Tree species composition and diversity at different levels of disturbance in Popa Mountain Park, Myanmar. Biotropica 43:597–603

  16. Hughes JB, Daily GC, Ehrlich PR (1997) Population diversity: its extent and extinction. Science 278:689–692

  17. ICAR-Indian Institute of Natural Resins and Gums (2018) Lac, Plant Resins and Gums statistics: at a Glance. Technical Bulletin No.19/2018. ICAR, Ranchi

  18. IFP (2018–2019) Annual lac bulletin. Institute of forest productivity, Ranchi

  19. IINRG (2018) Lac, plant resins and gums statistics: at a glance. Bulletin (Technical) No. 19/2018. ICAR-IINRG, Ranchi

  20. Jaiswal AK, Singh JP (2015) Lac cultivation on B. monosperma. ICAR-Indian Institute of Natural Gums and Resin, Ranchi

  21. Jaiswal AK, Sharma KK, Kumar KK (2006) Importance of lac in the socio-economic life of tribals in Ranchi district (Jharkhand). New Agric 17(1/2):133–137

  22. Jhariya MK, Bargali SS, Swamy SL, Kittur B (2012) Vegetational structure, diversity and fuel load in fire affected areas of tropical dry deciduous forests in Chhattisgarh. Vegetos 25:210–224

  23. Kittur B, Swamy SL, Bargali SS, Jhariya MK (2014) Wildland fires and moist deciduous forests of Chhattisgarh, India: divergent component assessment. J Forest Res 25(4):857–866

  24. Kumar KK (2002) scope of lac cultivation in employment and income generation. In: Kumar KK, Raman R, Sharma KK (eds) Recent advances in lac culture. ILRI, pp 254–262

  25. Kumar A, Kumar A, Saikia P, Adhikari Ravikant G, Khan ML (2020) Ecological Niche modelling for assessing potential distribution of Pterocarpus marsupium Roxb. in Ranchi, East India. Ecol Res 35:1095–1105

  26. Lalji S, Ghosh L, Bargali SS, Saxena RR (2008) Response of paddy planted under Butea monosperma trees in Chhattisgarh. Int J Ecol Environ Sci 34(1):63–66

  27. Mahajan DM, Kale VS (2006) Spatial characteristics of vegetation cover based on remote sensing and geographical information system (GIS). Trop Ecol 47(1):71–79

  28. Mohanasundaram A, Monobrullah M, Sharma KK, Kaprakkaden A, Singh R, Meena S (2014) Climate change: effect of weather parameters on production of summer season crop of rangeeni strain of Indian lac insect, Kerria lacca (Kerr) at Ranchi, Jharkhand. J Agrometeorol 16:108–113

  29. Morin X, Fahse L, Jactel H et al (2018) Long-term response of forest productivity to climate change is mostly driven by change in tree species composition. Sci Rep 8:5627. https://doi.org/10.1038/s41598-018-23763-y

  30. Myers N (1990) Mass extinctions: what can the past tell us about the present and the future? Palaeogeogr Palaeoclimatol Palaeoecol (global and Planetary Change Section) 82:175–185

  31.  

  32. Navarro-Racines C, Tarapues J, Thornton P, Jarvis A, Ramirez-Villegas J (2020) High-resolution and bias-corrected CMIP5 projections for climate change impact assessments. Sci Data 7:7. https://doi.org/10.1038/s41597-019-0343-8

  33. Pal G (2009) Impact of scientific lac cultivation training on lac economy: a study in Jharkhand. Agric Econ Res Rev 22:139–143

  34. Patel G, Dwivedi N, Tripathi IP (2017) Biochemical studies of B. monosperma (Palash). Int J Curr Res 9(02):45965–45968

  35. Rahul J (2013) Effect of Stone Crusher dust on Butea monosperma (Lam.) (Bastard Teak). Int J Environ Sci Eng Res 4:976–37081

  36. Shah AI (2016) Importance of Lac culture on socio-economic and biodiversity conservation fronts. Int J Adv Res 4(9):1708–1711

  37. Shahabuddin G (2020) An existential crisis in Indian forests. Mongabay. https://india.mongabay.com/2020/12/commentary-an-existential-crisis-in-indian-forests/. Accessed on 27 Apr 2021

  38. Sharma R (2013) Lac production and industrial economics in India. In: Kumar A, Das R (eds) Prospects of scientific lac cultivation in India. IFP, pp 271–275

  39. Thomas M (2013) Strategy on promotion of lac production in Madhya-pradesh; past failures and present approaches for future. In: Kumar A, Das R (eds) Prospects of scientific lac cultivation in India. IFP, pp 233–241

  40. Torlap K, Lamthai A (2019) Modeling habitat suitability of Dipterocarpus alatus (Dipterocarpaceae) using MaxEnt along the Chao Phraya River in Central Thailand. For Sci Technol 16(1):1–7

  41. Vashishtha A, Jehan T, Lakhanpaul S (2013) Genetic diversity and population structure of Butea monosperma (Lam.) Taub.—a potential medicinal legume tree. Physiol Mol Biol Plants 19(3):389–397. https://doi.org/10.1007/s12298-013-0170-x

  42. Walther GR, Post E, Convey P, Menzel A, Parmesank C, Beebee TJC, Fromentin JM, HoeghGuldberg O, Bairlein F (2002) Ecological responses to recent climate change. Nature 416:389–395

  43. Wilson EO (1988) The current state of biological diversity. In: Wilson EO, Peter FM (eds) Biodiversity. National Academy Press, Washington, pp 3–18

  44. WOI (1988) Butea monosperma (Lam.) Taub. The wealth of India ± raw materials revised, vol II:B. Council of Scientific and Industrial Research, New Delhi

  45. Baboo B, Sagar R, Bargali SS, Verma H (2017) Tree species composition, regeneration and diversity of an Indian dry tropical forest protected area. Trop Ecol 58(2):409–423

  46. Karki R, Hasson S, Schickhoff U, Scholten T, Böhner J (2017) Rising precipitation extremes across Nepal. Climate 5(1):4. https://doi.org/10.3390/cli5010004


  47.  


Acknowledgements :



The authors are thankful to Dr. N. Kulkarni, Director, IFP, Ranchi and to Dr. SA Ansari, Ex-Director, IFP, Ranchi, for their support and valuable suggestions. The authors are also thankful to GBIF for providing occurrence data, open-source MAXENT software, and GFSC-SIIL for providing worldclim data online.


Author Information:



Sharad Tiwari
Institute of Forest Productivity, Ranchi, India
sharadtiwari8@gmail.com
Amit Kumar
Institute of Forest Productivity, Ranchi, India
rsgis.brojo@gmail.com

S. N. Vaidya
Institute of Forest Productivity, Ranchi, India

vaidyasn@icfre.org Sk Mujibar Rahaman
Institute of Forest Productivity, Ranchi, India

mujibar08@gmail.com Masjuda Khatun
Institute of Forest Productivity, Ranchi, India
masjudakhatun18@gmail.com
Sanjoy Garai
Institute of Forest Productivity, Ranchi, India
sanjaygarai2013@gmail.com
Purabi Saikia
School of Natural Resource Management, Central University of Jharkhand, Ranchi, India
purabi.saikia@cuj.ac.in
, Amit Kumar
School of Natural Resource Management, Central University of Jharkhand, Ranchi, India
amit.iirs@gmail.com
Amit Kumar
School of Natural Resource Management, Central University of Jharkhand, Ranchi, India
amit.iirs@gmail.com
Amit Kumar
School of Natural Resource Management, Central University of Jharkhand, Ranchi, India




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