Assessing potential of farm management practices on Carbon Sequestration capacity in dryland area: case study Razin Watershed

Paper Details

Research Paper 01/02/2014
Views (330) Download (6)
current_issue_feature_image
publication_file

Assessing potential of farm management practices on Carbon Sequestration capacity in dryland area: case study Razin Watershed

Yahya Parvizi
J. Bio. Env. Sci.4( 2), 393-402, February 2014.
Certificate: JBES 2014 [Generate Certificate]

Abstract

Most scientific findings, confirm global climate change. Land carbon stock is the main carbon sink in carbon cycle and carbon sequestration in the land resource is the main hope to mitigate climate change. This research was conducted to evaluate the carbon sequestration capacity of farmland of Razin watershed as a main watershed target in MENARID program. The background studies and researches on carbon sequestration in neighboring areas were analyzed and while prioritizing reviewed projects, proper projects for every management in Razin were recommended. Results indicated that recommended operation including forage cultivation in dry lands with low productivity, terracing along with dryland gardens, transforming dry lands to almond cultivation and plow and tillage and rotation management can accordingly sequester 72.2, 93.4, 74.7 and 29.3 tons of carbon per hectare. According to the results of this study, total carbon sequestration potential in farmlands of Razin region is 186055tons in about 6490 hectares.

VIEWS 6

Parvizi Y, Gorji M, Mahdian MH, Omid M. 2010. Mapping of spatial variability of soil organic carbon and predicting the influences of physical and management factors by use of multivariate analysis and artificial neural networks. Ph.D thesis, Tehran University, Iran, 72-110.

Jonaidi jafari h. 2009. Study the effects of ecological and management agents on carbon sequestration in Sagebrush plain (case study: Semnan province rangelands). Ph.D thesis, Tehran University, Iran, 66-78.

Abdi N, Maddah arefi H, Zahedi G. 2008. Estimation of carbon sequestration potential Milk vetch fields in Markazi province of Iran (case study Malmir region). Iranian Range and Desert Journal 15(2), 269-282.

Kolahchi N. Study the carbon sequestration status in range lands plants. M.Sc. thesis, Islamic Azad University, Iran, 82-95.

Maddah arefi H. 2000. Report of carbon sequestration preparation in Hossain abad Ghaniab in Khorasan province. Technical Office of stabilized sand and desertification, Forest and range organization, 28-69.

Moghani zade ashkezari J. 2008. Study the carbon sequestration potential in Atriplex canescens spp. M.Sc. thesis, Tehran University, Iran, 85-99.

Department of Planning and Statistics of Forests Ranges and watershed management organization. 2003. Determination of functions and main non Commercial services of ranges and forests of Iran. Management report, Boom abad consulting engineering, 45-102.

Bierke A, Kaiser K, Guggenberger G. 2008. Crop residue management effects on organic matter in paddy soils – The lignin component. Geoderma, 146, 48–57.

Chivenge PP, Murwira HK, Giller KE, Mapfumo P, Six J. 2007 Long-term impact of reduced tillage and residue management on soil carbon stabilization: Implications for conservation agriculture on contrasting soils. Soil & Tillage Research 94, 328–337.

FAO. 2006. Carbon sequestration in dryland soils. Corporate Document Repository. http://www.fao.org /docrep/ 007/y5738e/y5738e05.html

IPCC. 2007. Climate change: The physical science basis. Working Group I, Contribution to the Fourth Assessment Report, 57-112

Koutika LS, Nolte C, Yemefack M, Ndango R, Folefoc D, Weis S. 2005. Leguminous fallows improve soil quality in south-central Cameroon as evidenced by the particulate organic matter status. Geoderma 125, 343–354.

Lal R. 2004. Soil carbon sequestration to mitigate climate change. Geoderma 123, 1–22

Lal R. 2008. The role of soil organic matter in the global carbon cycle. Soil and Environmental Pollution 116, 353–36.

Tan Z, Lal R. 2005. Carbon Sequestration Potential Estimates with Changes in Land Use and Tillage Practice in Ohio, USA. Agriculture, Ecosystems and Environment 126, 113-121.