Carbon allocation, sequestration and carbon dioxide mitigation under plantation forests of north western Himalaya, India

Authors

  • Bandana Devi University of Horticulture and Forestry, Himachal Pradesh 173230, India
  • D.R. Bhardwaj University of Horticulture and Forestry, Himachal Pradesh 173230, India
  • Pankaj Panwar Central Soil & Water Conservation Research & Training Institute, Research Centre, 160 019 Chandigarh, India.
  • Sharmistha Pal Central Soil & Water Conservation Research & Training Institute, Research Centre, 160 019 Chandigarh, India.
  • N.K. Gupta University of Horticulture and Forestry, Himachal Pradesh 173230, India
  • C.L. Thakur University of Horticulture and Forestry, Himachal Pradesh 173230, India

DOI:

https://doi.org/10.15287/afr.2013.48

Keywords:

Afforestation, carbon sequestration, plantation biomass, soil carbon, carbon dioxide mitigation

Abstract

The organic carbon and soils of the world comprise bulk of the terrestrial carbon and serve as amajorsink and source of atmospheric carbon. Increasing atmospheric concentrations of green house gases may be mitigated by increasing carbon sequestration in vegetation and soil. The study attempted to estimate biomass production and carbon sequestration potential of different plantation ecosystems in north western Himalaya, India. Biomass, carbon density of biomass, soil, detritus, carbon sequestration and CO2 mitigation potential were studied underdifferent plantation forest ecosystems comprising of eight different tree species viz. Quercus leucotrichophora, Pinus roxburghii), Acacia catechu, Acacia mollissima, Albizia procera, Alnus nitida, Eucalyptus tereticornis and Ulmus villosa. Above (185.57 ą 48.99 tha-1) and below ground (42.47 ą 10.38 tha-1 ) biomass was maximum in Ulmus villosa. The vegetation carbon density was maxium in Albizia procera (118.37 ą 1.49 tha-1) and minimum (36.50 ą 9.87 tha-1) in Acacia catechu. Soil carbon density was maximum (219.86ą 10.34 tha-1) in Alnus nitida, and minimum (170.83ą 20.60 tha-1)in Pinus roxburghii. Detritus was higher in Pinus roxburghii (6.79 ą 2.0 tha-1). Carbon sequestration (7.91ą 3.4 tha-1) and CO2 mitigation potential (29.09 ą 12.78 tha-1) was maximum in Ulmus villosa. Pearson correlation matrix revealed significant positive relationship of ecosystem carbon with plantation biomass, soil carbon and CO2 mitigation potential. With the emerging threat of climate change, such assessment of forest and soil carbon inventory would allow to devise best land management and policy decisions forsustainable management of fragile hilly ecosystem. 

Downloads

Published

2012-07-06

Issue

Vol. 56 No. 1 (2013)

Section

Research article

License

All the papers published in Annals of Forest Research are available under an open access policy (Gratis Gold Open Access Licence), which guaranty the free (of taxes) and unlimited access, for anyone, to entire content of the all published articles. The users are free to “read, copy, distribute, print, search or refers to the full text of these articles”, as long they mention the source.

The other materials (texts, images, graphical elements presented on the Website) are protected by copyright.

The journal exerts a permanent quality check, based on an established protocol for publishing the manuscripts. The potential article to be published are evaluated (peer-review) by members of the Editorial Board or other collaborators with competences on the paper topics. The publishing of manuscript is free of charge, all the costs being supported by Forest Research and Management Institute.

More details about Open Access:

Wikipedia: http://en.wikipedia.org/wiki/Open_access

DOAJ: http://www.doaj.org/oainfo