The enactment of the Philippine Biofuels Act in 2006 led to rising interest in biofuels and the potential to help mitigate the negative impacts of climate change in view of the ability of plant biomass to sequester carbon from the atmosphere. The carbon sequestration potential of oil palm has been recognized for several years but no study has been done in the country to assess the amount of carbon in its biomass. This paper presents the amount of carbon stored in different parts of Elaeis guineensis, commonly known as African oil palm, in plantations with different ages. The carbon content of one plant each from oil palm plantation with ages two, five, six, seven, eight, and nine years was assessed. Results indicate that among different parts, trunk with frond butts and the fronds stored the highest amount of carbon per plant. The data also indicate that the carbon content of oil palm leaves does not vary with plantation age. Moreover, calculations show that a nine-year-old oil palm plantation in the Philippines could sequester 6.1 t ha-1 yr-1 of carbon, with an estimated carbon density of 55 t ha-1. Older oil palm plants contain more carbon than those that are relatively younger. The study’s findings could help policy and decision makers craft climate change mitigation policies and programs in the Philippines.
Publication year
2014
Authors
Pulhin F B; Urquiola J P; Lasco R D
Language
English
Keywords
greenhouse gas, cocoa, emissions, biofuels, fruits
Geographic
Philippines
