Abstract
Management and conservation of forests are subject to pressures and disturbances. Planning and management of forests for conservation require information on the biodiversity, socio-economic dependence, forest biomass, and carbon. Long-term studies help generate such information on the structure and function of forests. The current study was conducted in the Uttara Kannada District of Karnataka in the Western Ghats region. The dynamics of forest ecosystems was studied through permanent plots of 1 ha in the evergreen and deciduous forest types, and the socio-economic aspects through household surveys in villages in the proximity of the permanent plots, for assessing the dependence on forests. The biomass estimates for the evergreen forest plots were 301–341 t/ha and those for deciduous forest plots were 258–336 t/ha. This is despite large dependence of households in the range of 10–48% on the forests for food, fodder, firewood, manure, and other NTFPs. Long-term data on the growth and mortality rates of economically important species, forest carbon balance, and the impact of climate change on forest composition are central to effective management. However, this information is rarely integrated within the policymaking process. This data could be utilized through integration at three points—the policy window, the decision window, and the networking window. Creating these policy, decision and networking windows will allow use of information from permanent plots for effective and efficient management of forest ecosystems, making them resilient to systemic and chronic shocks—both climate and non-climate.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Anke J, White P (2019) A theory of pulse dynamics and disturbance in ecology. Ecology 1007:e02734. https://doi.org/10.1002/ecy.2734
Bhat DM, Naik MB, Patgar SG, Hegde GT, Kanade YG, Hegde GN, Shastri CM, Shetti DM, Furtado RM (2000a) Forest dynamics in tropical rain forests of Uttara Kannada district in Western Ghats, India. Curr Sci 79(5):975–985
Bhat PR, Rao J, Murthy IK, Murali KS, Ravindranath NH (2000b) Joint forest planning and management in Uttara Kannada: a micro and macro level assessment. In: Ravindranath NH, Murali KS, Malhotra KC (eds) Joint forest management and community forestry in India: an ecological and institutional assessment. Oxford and IBH, New Delhi, pp 59–98
Bhat DM, Murali KS, Ravindranath NH (2003) Carbon stock dynamics in the tropical rain forests of the Uttara Kannada district, Western Ghats, India. Int J Environ Pollut 19(2):139–149
Brockerhoff EG, Barbaro L, Castagneyrol B, Forrester DI, Gardiner B, González-Olabarria JR et al (2017) Forest biodiversity, ecosystem functioning and the provision of ecosystem services. Biodivers Conserv 26:3005–3035. https://doi.org/10.1007/s10531-017-1453-2
Brown S, Lugo AE (1982) Above ground biomass estimates for tropical moist forests of Brazilian Amazon. Interciencir 17(1):8–18
Champion HG, Seth SK (1968) A revised survey of the forest types of India. Government of India Press, Nasik, India
Chave J, Riera B, Dubois M (2001) Estimation of biomass in a Neotropical Forest of French Guiana: spatial and temporal variability. J Trop Ecol 17:79–96
Chazdon RL (2003) Tropical forest recovery: legacies of human impact and natural disturbances. Perspect Plant Ecol Evol Syst 6:51–71
Chazdon RL, Letcher SG, van Breugel M, Martínez-Ramos M, Bongers F, Finegan B (2007) Rates of change in tree communities of secondary Neotropical forests following major disturbances. Philosop Trans R Soc London B Biol Sci 362:273–289. https://doi.org/10.1098/rstb.2006.1990
Cooke T (1967) The flora of presidency of Bombay. Botanical survey of India, Calcutta
Connell JH (1978) Diversity in tropical rain forests and coral reefs. Science 199:1302–1310
Daily G (1997) Introduction: what are ecosystem services? In: Daily G (ed) Nature‘s services: societal dependence on natural ecosystems. Island Press, Washington
Dixon RK, Solomon AM, Brown S, Houghton RA, Trexler MC, Wisniewski J (1994) Carbon pools and flux of global forest ecosystems. Science 263:185–190
Elmqvist T, Folke C, Nystrom M, Peterson G, Bengtsson J, Walker B, Norberg J (2003) Response diversity, ecosystem change, and resilience. Front Ecol Environ 1:488–494
Feldpausch TR, McDonald AJ, Passos CAM, Lehmann J, Riha SJ (2006) Biomass harvestable area and forest structure estimated from commercial timber inventories and remotely sensed imagery in southern Amazonia. For Ecol Manag 233:121–132. https://doi.org/10.1016/j.foreco.2006.06.016
Furukawa Sasaki TT, Iwasaki Y, Seto M, Mori AS (2015) Perspectives for ecosystem management based on ecosystem resilience and ecological thresholds against multiple and stochastic disturbances. Ecol Indic 57:395–408
Gandhi DS, Sundarapandian S (2017) Large-scale carbon stock assessment of woody vegetation in tropical dry deciduous forest of Sathanur reserve forest Eastern Ghats India. Environ Monit Assess 189(4):187
Gerwing JJ, Farias DL (2000) Integrating liana abundance and forest stature into an estimate of total aboveground biomass for an eastern Amazonian forest. J Trop Ecol 16:327–335
Grimm Nancy B, Steward TA, Pickett Rebecca L, Hale Mary L, Cadenasso (2017) Does the ecological concept of disturbance have utility in urban social–ecological–technological systems? Special feature: an ecology in of and for the City Ecosystem Health and Society. https://doi.org/10.1002/ehs2.1255
Haase P, Tonkin JD, Stoll S, Burkhard B, Frenzel M, Geijzendorffer IR, Häuser C, Klotz S, Kühn I, McDowell WH, Mirtl M (2018) The next generation of site based long-term ecological monitoring: linking essential biodiversity variables and ecosystem integrity. Sci Total Environ 613:1376–1384
ISFR (2021) India State of Forest Report 2021 Forest Survey of India Ministry of Environment Forest & Climate Change Government of India
Keller MM, Hurtt PG (2001) Biomass estimation in the Tapajós National Forest Brazil. Examination of sampling and allometric uncertainties. For Ecol Manag 154:371–382
Komala HP, Devi Prasad AG (2016) Biomass: a key source of energy in rural households. Adv Appl Sci Res 7(1):85–89
Kumar M, Rawat SPS, Singh H, Ravindranath NH, Kalra N (2018) Dynamic forest vegetation models for predicting impacts of climate change on forests: an Indian perspective. Indian J For 41(1):1–12
Lewis SL, Bonaventure S, Terry S, Begne SK, Gabriela L-G, van der Heijden GMF, Phillips OL, Kofi A-B, Baker TR, Lindsay B, Jean-François B, Hans B, Pascal B, Jan B, Charles DC, Eric C, Clark CJ, Murray C, Gloria D, Djuikouo Marie Noël K, Vincent D, Jean-Louis D, Ewango CEN, Sophie F, Feldpausch Ted R, Foli Ernest G, Jean-François G, Hamilton Alan C, Harris David J, Hart Terese B, de Thales H, Annette H, Koen H, Dries H, Philippe J, Jeffery Kathryn J, Elizabeth K, Leal Miguel E, Jon L, Lovett Jon C, Jean-Remy M, Yadvinder M, Marshall Andrew R, Lucas O, Peh Kelvin S-H, Georgia P, Poulsen John R, Reitsma Jan M, Douglas S, Murielle S, Kathy S, Taedoumg Hermann E, Joey T, Taplin James RD, David T, Thomas Sean C, Benjamin T, Hans V, Jason V, White Lee JT, Simon W, Hannsjorg W, Lise Z (2013) Above-ground biomass and structure of 260 African tropical forests. Philos Trans R Soc B 368:20120295. https://doi.org/10.1098/rstb.2012.0295
Lindenmayer DB, Likens GE, Andersen A, Bowman D, Bull CM, Burns E, Dickman CR, Hoffmann AA, Keith DA, Liddell MJ, Lowe AJ (2012) Value of long-term ecological studies. Aust Ecol 37(7):745–757
Malhi Y, Wood D, Baker TR, Wright J, Phillips OL, Cochrane T et al (2006) The regional variation of aboveground live biomass in old-growth Amazonian forests. Glob Chang Biol 12(7):1107–1138
Miller SD, Goulden ML, Hutyra LR, Keller M, Saleska SR, Wofsy SC et al (2011) Reduced impact logging minimally alters tropical rainforest carbon and energy exchange. Proc Natl Acad Sci U S A 108:19431–19435
Mirtl M, Borer ET, Djukic I, Forsius M, Haubold H, Hugo W, Jourdan J, Lindenmayer D, McDowell WH, Muraoka H, Orenstein DE (2018) Genesis, goals and achievements of long-term ecological research at the global scale: a critical review of ILTER and future directions. Sci Total Environ 626:1439–1462
MoEFCC & GIZ (2014) The Economics of Ecosystems and Biodiversity TEEB India Initiative: Interim Report - Working Document
Montagnini F, Porras C (1998) Evaluating the role of plantations as carbon sinks: an example of an integrating approach from the humid tropics. Environ Manag 22:459–470
Murali KS, Bhat DM, Ravindranath NH (2005) Biomass estimation equation for tropical deciduous and evergreen forests. Int J Agri Resour Govern Ecol 4:81–92
Murphy PG, Lugo AE (1986) Ecology of tropical dry forest. Annu Rev Ecol Syst 17(1):67–88
Murthy IK, Bhat S, Sathyanarayan V, Patgar S, Beerappa M, Bhat PR, Bhat DM, Gopalakrishnan R, Jayaraman M, Munsi M, Ravindranath NH, Khalid MA, Prashant M, Iyer S, Saxena R (2014) Implications of impacts of climate change on forest product flows and dependent communities in the Western Ghats, India. J For Sci 30(2):189–200
Murthy IK, Bhat S, Sathyanarayan V, Patgar S, Beerappa M, Bhat PR, Bhat DM, Ravindranath NH, Khalid MA, Prashant M, Iyer S, Bebber DM, Saxena R (2016) Vegetation structure and composition of tropical evergreen and deciduous forests in Uttara Kannada District, Western Ghats under Different Disturbance Regimes. Trop Ecol 57(1):77–88
Negi Vikram S, Pathak R, Rawal RS, Bhatt ID, Sharma S (2019) Long-term ecological monitoring on forest ecosystems in Indian Himalayan Region: criteria and indicator approach. Ecol Indic 102:374–381
Oshima K, Takahashi K (2020) Forest disturbances promote invasion of alien herbaceous plants: a comparison of abundance and plant traits between alien and native species in thinned and unthinned stands. Biol Invasions 22:2749–2762. https://doi.org/10.1007/s10530-020-02283-9
Pascal JP (1986) Explanatory booklet on the forest maps of South India. French Institute, Pondicherry, India
Pascal JP, Pelissier R (1996) Structure and floristic composition of a tropical evergreen forest in South-West India. J Trop Ecol 12:191–214
Phillips O, Mahli Y, Higuchi N, Laurence WF, N’unez PV, Vasquez RM, Laurence SG, Ferreira LV, Stern M, Brown S, Grace J (1998) Changes in the carbon balance of tropical forests: evidence from long-term plots. Science 282:439–442
Pickett STA, White PS (1985) The ecology of natural disturbance and patch dynamics. Academic Press, Orlando, FL
Pomeroy CR, Primack SNR (2003) Changes in four rain forest plots of the Western Ghats, India, 1939-93. Conserv Soc 1:113–135
Savita Kumar M, Singh H, Pandey R, Singh MP, Ravindranath NH, Kalra N (2018) Assessing vulnerability of forest ecosystem in the Indian Western Himalayan region using trends of net primary productivity. Biodivers Conserv 28(8–9):2163–2182
Tripathi SK (2010) The need for establishing long-term ecological research stations network in India. Curr Sci 98(1):21–22
Turner DP, Ritts WD, Kennedy RE, Gray AN, Yang Z (2016) Regional carbon cycle responses to 25 years of variation in climate and disturbance in the US Pacific Northwest. Reg Environ Chang 16:2345–2355
Ummenhofer CC, Meehl GA (2017) Extreme weather and climate events with ecological relevance: a review. Philos Trans R Soc B 372:20160135
UNFAO (2015) Durban declaration: 2050 vision for forests and forestry. Food and Agriculture Organization of the United Nations Rome. www.fao.org/fileadmin/user_upload/wfc2015/../Durban_Declaration_draft.pdf
Verma M, Negandhi D, Wahal AK, Kumar R, Kinhal GA, Kumar A (2014) Revision of rates of NPV applicable for different class/category of forests. Indian Institute of Forest Management, Bhopal
Acknowledgements
We are greatly thankful to all the volunteers of HSBC who along with scientists of the Indian Institute of Science, Bengaluru, and Earthwatch Institute contributed in rigorous data collection for this successful Citizen Science programme implemented under the HSBC Climate Partnership.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Murthy, I.K. et al. (2022). Biodiversity and Biomass Carbon Dynamics: Insights from Long-Term Monitoring in the Western Ghats. In: Kumar, M., Dhyani, S., Kalra, N. (eds) Forest Dynamics and Conservation. Springer, Singapore. https://doi.org/10.1007/978-981-19-0071-6_10
Download citation
DOI: https://doi.org/10.1007/978-981-19-0071-6_10
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-19-0070-9
Online ISBN: 978-981-19-0071-6
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)