The Effects of Climate Change on the Future of Citrus Growth in the Mediterranean Region Change

I. Ortaş
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Abstract

Citrus fruit production is one of the largest fruit crop productions in the World, especially in the Mediterranean area. The future of citrus plantations in the sub-tropical region depends on climate change. Eight billion world’s population’s activity and energy demand is getting increased and as a result, more greenhouse gases are fluxing into the atmosphere. All the atmospheric data such as CO2 and other gases concentrations are increasing and weather patterns are continuously changing which results in climate change. Agricultural productivity and climate change parameters are interrelated in many ways. Abiotic stresses such as temperature and water stress are the main environmental factors that reduce yield at a drastic level. Climate-based stress factors cause physiological, biochemical, and anatomical changes in plant growth and structure. Stress factors also lead to a reduction in crop yield. An increase in temperature and water deficiency is expected to result in reduced citrus tree fruit growth and in turn decreased yield. In the present work, the effects of greenhouse gases on climate change and the citrus plantation future are discussed. Since net carbon dioxide assimilation in plant leaves and stomatal conductance is reduced by high leaf temperature, plant growth is depressed. Due to water deficiency, the transpiration rate and stomatal conductance are naturally reduced, and in turn, the yield will be reduced. Knowing the possible effects of climate change on photosynthesis productivity and CO2 assimilation capacity in citrus plants is better. In addition, it is better to know what can be done to keep yield at optimum levels. Also, it is better to know the rhizosphere organism’s role in the mitigation of greenhouse gases to reduce climate change effects on agricultural sustainability.
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气候变化对地中海地区柑橘生长未来的影响 变化
柑橘类水果生产是世界上最大的水果作物生产之一,尤其是在地中海地区。亚热带地区柑橘种植园的未来取决于气候变化。全球 80 亿人口的活动和能源需求不断增加,导致更多温室气体进入大气。二氧化碳和其他气体浓度等所有大气数据都在增加,天气模式也在不断变化,从而导致气候变化。农业生产力和气候变化参数在许多方面相互关联。非生物胁迫(如温度和水胁迫)是导致大幅减产的主要环境因素。气候胁迫因素会导致植物生长和结构发生生理、生化和解剖学变化。胁迫因素也会导致作物减产。温度升高和缺水预计会导致柑橘树果实生长减少,进而导致产量下降。本文讨论了温室气体对气候变化和柑橘种植园未来的影响。由于叶片温度过高,植物叶片的二氧化碳净同化和气孔导度降低,植物生长受到抑制。由于缺水,蒸腾速率和气孔导度自然会降低,进而导致减产。了解气候变化对柑橘植物光合作用生产力和二氧化碳同化能力可能产生的影响会更好。此外,还能更好地了解如何将产量保持在最佳水平。此外,最好还能了解根瘤生物在减缓温室气体方面的作用,以减少气候变化对农业可持续性的影响。
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