Predicting Mango Sudden Decline Due to Ceratocystis fimbriata Under a Changing Climate

Q4 Agricultural and Biological Sciences Arab Journal of Plant Protection Pub Date : 2021-09-01 DOI:10.22268/ajpp-039.3.215223
Amna Al-Ruheili, A. Boluwade, A. Al-Subhi
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Abstract

Mango fruit trees are an important fruit crop due to their high value. Mango sudden decline (MSD) is a major disease that threatens mango trees in Oman and worldwide. The objective of this study was to identify those areas in northern Oman in which Ceratocystis fimbriata (a plant fungal pathogen causing MSD) may establish itself under various climate change scenarios. The MaxEnt model used in this study was based on data for the period 1970-2000 and then projected to future climate periods. This study modeled the future distribution of C. fimbriata for 2021–2040, 2041–2060, 2061–2080, and 2081–2100 climatic scenarios. Fifteen affected locations and seven bioclimatic variables were investigated in this study. The model showed values between 0.896 and 0.913 (habitat suitability) which represented a good model outcome. The jackknife test showed that the mean diurnal range in temperature, precipitation of the driest month, and elevation contributed to C. fimbriata distribution. From 2021 through 2040, a total area of 1,889 km2 was found to be highly suitable for C. fimbriata in Northern Oman. Compared with the 2021–2040 period, the poorly suitable area would increase in both 2041–2060 and 2081–2100 periods. The moderately suitable regions for C. fimbriata would decrease under all scenarios investigated. However, the total area of the suitable areas, with all scenarios, would increase, except during the 2041-2060 period. This research offers a tool to better manage and prevent the possible Ceratocystis blight (C. fimbriata) and bark beetle (Hypocryphalus mangiferae) invasions under future projected climatic scenarios. Keywords: Mango sudden decline (MSD), “Ceratocystis fimbriata”, bioclimatic variables, climate change, Sultanate of Oman, Maxent.
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预测气候变化下芒果因毛角鼻虫引起的突然衰退
芒果果树价值高,是一种重要的果树作物。芒果猝死病(MSD)是威胁阿曼和世界各地芒果树的主要病害。本研究的目的是确定在阿曼北部的哪些地区,在各种气候变化情景下,毛角鼻虫(一种引起MSD的植物真菌病原体)可能会在这些地区生根发芽。本研究中使用的MaxEnt模型基于1970-2000年的数据,然后对未来气候期进行预估。本研究模拟了2021-2040年、2041-2060年、2061-2080年和2081-2100年不同气候情景下红藓的未来分布。本研究调查了15个受影响的地点和7个生物气候变量。生境适宜性在0.896 ~ 0.913之间,模型结果较好。叠刀试验表明,平均日温差、最干月降水量和海拔高度对毛杉分布有影响。从2021年到2040年,阿曼北部有1889平方公里的面积非常适合C. fibriata生长。与2021 ~ 2040年相比,2041 ~ 2060年和2081 ~ 2100年的不适宜区面积均呈增加趋势。在所有研究情景下,柽柳适度适宜生长的区域都在减少。然而,除2041-2060年期间外,所有情景下适宜地区的总面积都将增加。本研究为在未来预测的气候情景下更好地管理和预防可能的角鼻虫枯萎病(C. fibriata)和树皮甲虫(Hypocryphalus mangiferae)入侵提供了工具。关键词:芒果猝死(MSD),“毛角鼻虫”,生物气候变量,气候变化,阿曼苏丹国,Maxent
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来源期刊
Arab Journal of Plant Protection
Arab Journal of Plant Protection Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
0.40
自引率
0.00%
发文量
12
期刊介绍: The Arab Journal of Plant Protection is an open access journal included in CABI, AGRIS and Google Scholar data bases and indexed by Scopus. The journal’s aim is the promotion of plant health for crops grown in the Arab and Near East region and for safe food production and transfer of new knowledge on plant pests and their sustainable management. The journal deals with all scientific
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