Abstract:
Dry zone home gardens could be considered as agroforestry units which have
potential to mitigate and adapt climate changes. Carbon quantification in home
gardens could give a picture of carbon stock of home gardens as agroforestry
systems. Once the present carbon stock is quantified, strategies could be made for
dry zone home gardens to further develop into better carbon storages. This study
was conducted to quantify existing permanent aboveground carbon stock in
Gomarankadawela area in the Kumbukwewa cascade in the Trincomalee district of
Sri Lanka. A total of 44 home gardens were categorized according to the size (< =
0.2 ha small scale (n=13), 0.2< to < = 0.4 ha medium scale (n=13) and 0.4< to < 1 ha
large scale (n=18) and data were collected. Diameter at breast height, height of
3338 trees and plants with their abundance were recorded. Allometric equation
was used to calculate aboveground carbon stock. Pearson R correlation test and
one-way ANOVA test were used to analyze the calculated carbon stock values. Mean
above ground carbon stock was 30 mg C ha-1 ranging from 0.005 mg C ha 1 to 80.99
mg C ha-1. The size of the home garden was not significantly (p<0.05) correlated
with aboveground carbon stock, but it had significant differences among the scale
of the home gardens. The small-scale home gardens had the highest carbon stock
(40.16±22.5 mg C ha-1) and medium scale had the lowest carbon stock (23. 54± 14.7
mg C ha-1). The findings revealed that the dry zone home gardens are having lower
carbon stock and there is still a possibility of strategizing to increase the capacity of
carbon storage as a measure of climate change mitigation specially focusing on
medium and large-scale home gardens. This could be done strategically by
increasing the carbon stock using under-utilized land area on a sustainable basis by
optimizing tree density with proper mixture in the dry zone home gardens.
