Abstract
The area under oil palm in Ghana has expanded but average fruit bunch yields remained low, resulting in large yield gaps. This study assessed the potential for increasing yield with 'Best Management Practices (BMP)' on plantations and smallholder farms in southern Ghana, compared with current standard practices, i.e. reference (REF) yield. We evaluated short-term (≤1 year) yield increases with 'yield taking' (improved crop recovery), and long-term increases (>1 year) with 'yield making' (better agronomy) practices and identified the factors that contributed most to yield improvements. Average fruit bunch yield increases with BMP were 2.1 t ha−1 (+19%) and 4.7 t ha−1 (+89%) with yield taking and 4.7 t ha−1 (+36%) and 7.6 t ha−1 (+76%) with yield making at plantations and smallholder farms respectively. Short-term yield improvements were achieved with more frequent harvesting events and improved field access, which can help finance inputs needed for the yield making phase. Our analysis suggests more balanced palm nutrition could contribute considerably to yield making, particularly on smallholder farms. Improved fertilizer recommendations are therefore essential for sustainable oil palm production in Ghana. Increasing yields to 21.0 t ha−1 on land already planted to oil palm, can increase national fruit bunch production from 2.5 Mt to 6.9 Mt, sparing 600,000 ha of land. However, labour constraints on plantations and lack of access to credit and agricultural inputs on smallholder farms are major hurdles that need to be overcome to increase production.
Highlights
Oil palm (Elaeis guineensis Jacq.) is one of the world’s most rapidly expanding equatorial crops, driven by increasing global demand for vegetable oil and biofuel (Corley, 2009; Fitzherbert et al, 2008; Wich et al, 2014)
The average fruit bunch yield with Best Management Practices (BMP) at plantation sites increased by 2.1 t ha−1 (+19 %) in year 1 to 13.2 t ha−1, compared with an increase of 1.0 t ha−1 (+10 %) to 11.4 t ha−1 in REF plots
The largest improvements with BMP were at the Norpalm site, where average fruit bunch yields with BMP were 3.6 t ha−1 (+47 %) greater than yields obtained with REF in year 1, 4.7 t ha−1 (+53 %) greater in year 2 and 8.3 t ha−1 (+58 %) greater in year 3
Summary
Oil palm (Elaeis guineensis Jacq.) is one of the world’s most rapidly expanding equatorial crops, driven by increasing global demand for vegetable oil and biofuel (Corley, 2009; Fitzherbert et al, 2008; Wich et al, 2014). Between 1975 and 2014, the global land area under mature oil palm increased fourfold from 3.5 Mha to 18.7 Mha, with most expansion in Southeast Asia, notably Indonesia (with a total area currently under harvest of 7.4 Mha) and Malaysia (total area of 4.7 Mha) (FAO, 2017). The growth in palm oil production has contributed to improved economic growth and rural poverty alleviation (Corley, 2009; Edwards, 2015; Sayer et al, 2012), though much of the area expansion has been at the expense of logged-over tropical rainforest (Danielsen et al, 2009; Fitzherbert et al, 2008; Koh and Wilcove, 2008). In SSA, Nigeria, Cameroon and Ghana produce the most palm oil (7.9 Mt yr−1, 2.7 Mt yr−1, and 2.4 Mt yr−1 in 2014 respectively), while the largest expansion in area over the past decade (2004–2014) took place in the Democratic Republic of Congo (+118,000 ha), Cameroon (+81,000 ha), Ivory Coast (+74,000 ha) and Ghana (+31,500 ha) (FAO, 2017).
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