Future scenarios for oil palm mortality and infection by Phytophthora palmivora in Colombia, Ecuador and Brazil, extrapolated to Malaysia and Indonesia

Palm oil is a very important commodity especially to Malaysia and Indonesia. However, Latin American countries have significant industries, particularly Colombia. Climate change (CC) is a highly probable phenomenon which will affect diseases of oil palm (OP) with Phytophthora palmivora causing devastating outbreaks in Latin America and especially Colombia. Furthermore, the oomycete is an endemic pathogen to other crops in Malaysia such as durian, and is capable of causing disease of OP in vitro. A similar disease has been recorded in Thailand. It is crucial that P. palmivora is controlled in Malaysia and Indonesia because the organism is highly virulent, although there are acute and chronic forms. This current paper investigates the effect of CC on P. palmivora disease and on OP survival via a CLIMEX model for future suitable growth of OP. Postulated schemes are provided for Malaysia and Indonesia for acute and chronic forms of the disease which indicate an extremely high and increasing threat, likely to reduce the sustainability of the OP industry by 2050 and further by 2070 and/or 2100. Brazil appears less threatened by the disease under these scenarios, but their OP is likely to have 100% mortality. The chronic and acute forms of the malady present reduced and high threats respectively to Malaysia and Indonesia. The data herein will be useful for, inter alia, plantation managers who will be able to assess the accuracy of these scenarios in the future. Amelioration methods are required urgently and quarantine procedures need strengthening.(undefined)info:eu-repo/semantics/publishedVersio

Longitudinal trends of future climate change and oil palm growth: empirical evidence for tropical Africa

Palms are highly significant tropical plants. Oil palms produce palm oil, the basic commodity of a highly important industry. Climate change from greenhouse gasses is likely to decrease the ability of palms to survive, irrespective of them providing ecosystem services to communities. Little information about species survival in tropical regions under climate change is available and data on species migration under climate change is important. Palms are particularly significant in Africa: a palm oil industry already exists with Nigeria being the largest producer. Previous work using CLIMEX modelling indicated that Africa will have reduced suitable climate for oil palm in Africa. The current paper employs this modelling to assess how suitable climate for growing oil palm changed in Africa from current time to 2100. An increasing trend in suitable climate from west to east was observed indicating that refuges could be obtained along the African tropical belt. Most countries had reduced suitable climates but others had increased, with Uganda being particularly high. There may be a case for developing future oil palm plantations towards the east of Africa. The information may be usefully applied to other palms. However, it is crucial that any developments will fully adhere to environmental regulations. Future climate change will have severe consequences to oil palm cultivation but there may be scope for eastwards mitigation in Africa.info:eu-repo/semantics/publishedVersio

Opportunities for new-generation Ganoderma boninense biotechnology

Plant pathogenic fungi are significantly impacting global food security, causing a tremendous decline in crop yield and production. Strategies to identify fungal pathogenicity/virulent factors remain a grand challenge in biotechnology especially in the quest for an effective solution involving resistance, protection and management. The basidiomycete, Ganoderma boninense, causes basal stem rot (BSR) in oil palm trees involving lignin biodegradation. In Southeast Asia, BSR severely affects oil palm production with ongoing economic losses. The disease is deemed a serious agricultural threat to developing, or newly industrialized, countries such as Malaysia, Papua New Guinea and Indonesia. In this chapter, we discuss the biology and pathogenic nature of G. boninense with respect to its host defence response, lignification. We present an explicit overview of the G. boninense-oil palm pathosystem and thereby provide critical information on feasible strategies available for G. boninense control. In addition, current improvements and future prospective for new-generation biotechnology in respect to G. boninense are discussed.(undefined)info:eu-repo/semantics/publishedVersio