论文信息 - Remote sensing assessment of carbon storage by urban forest

Remote sensing assessment of carbon storage by urban forest

Urban forests play a crucial role in mitigating global warming by absorbing excessive CO2 emissions due to transportation, industry and house hold activities in the urban environment. In this study we have assessed the role of trees in an urban forest, (Mutiara Rini) located within the Iskandar Development region in south Johor, Malaysia. We first estimated the above ground biomass/carbon stock of the trees using allometric equations and biometric data (diameter at breast height of trees) collected in the field. We used remotely sensed vegetation indices (VI) to develop an empirical relationship between VI and carbon stock. We used five different VIs derived from a very high resolution World View-2 satellite data. Results show that model by [1] and Normalized Difference Vegetation Index are correlated well (R2 = 0.72) via a power model. We applied the model to the entire study area to obtain carbon stock of urban forest. The average carbon stock in the urban forest (mostly consisting of Dipterocarp species) is ~70 t C ha−1. Results of this study can be used by the Iskandar Regional Development Authority to better manage vegetation in the urban environment to establish a low carbon city in this region.

Kasturi Devi Kanniah | K. Kanniah | N. Muhamad | C. S. Kang | Norhamidi Muhamad

[1] K. Kadirvelu,et al. Adsorption of hexavalent chromium from aqueous medium onto carbonaceous adsorbents prepared from waste biomass. , 2010, Journal of environmental management.

[2] David J. Nowak,et al. Atmospheric Carbon Reduction by Urban Trees , 1993 .

[3] J. Houghton,et al. Climate change 1995: the science of climate change. , 1996 .

[4] S. Erasmi,et al. Below- and above-ground biomass and net primary production in a paleotropical natural forest (Sulawesi, Indonesia) as compared to neotropical forests , 2009 .

[5] Sandra A. Brown,et al. Aboveground biomass distribution of US eastern hardwood forests and the use of large trees as an indicator of forest development , 1997 .

[6] S. Saatchi,et al. Impact of spatial variability of tropical forest structure on radar estimation of aboveground biomass , 2011 .

[7] Ariel E. Lugo,et al. Biomass Estimation Methods for Tropical Forests with Applications to Forest Inventory Data , 1989, Forest Science.

[8] Q. Ketterings,et al. Reducing uncertainty in the use of allometric biomass equations for predicting above-ground tree biomass in mixed secondary forests , 2001 .

[9] D. Lashof,et al. Relative contributions of greenhouse gas emissions to global warming , 1990, Nature.

[10] Andrew K. Skidmore,et al. Allometric equations for estimating the above-ground biomass in tropical lowland Dipterocarp forests , 2009 .