HEAT TOLERANCE OF INTACT SEMI-DESERT CRYPTOBIOTIC CRUSTS DOMINATED BY MOSSES

Acta Biologica Plantarum Agriensis Pub Date : 1900-01-01 DOI:10.21406/abpa.2021.9.1.53

S. Dulai

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Abstract

The heat sensitivity of plants is closely connected to the thermal stability of PSII. It is more or less clear that the heat sensitivity of the photosynthetic apparatus, and the thermal stability of PSII, can change rapidly. It is also recognized in higher plants that the heat tolerance of PS II is influenced by other stress factors like light and water deficit. In desert and semi-desert conditions parallel with the increase of irradiation and leaf temperature the water content decreases very rapidly in these poikilohydric crusts. To achieve an acceptable dry matter production, an efficient photosynthetic functioning is necessary even under such unfavorable conditions: the combined effects of the three stress factors need to be tolerated at the same time. According to the above mentioned facts, the thermal stability of photosysthetic apparatus was examined under different (light and water deficit) treatments in the mosses ( Didymodon luridus Hornsch , Didymodon nicholsonii Culm , Grimmia capillata De Not and Crossidium squamiferum Juratzka) dominated intact semi-desert cryptobiotic crusts. Before the measurements the samples were rehydrated and transferred to a growth chamber for two days. Desiccation treatments were carried out by

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以苔藓为主的完整半荒漠隐生壳的耐热性

植物的热敏性与PSII的热稳定性密切相关。由此可见，光合机构的热敏性和PSII的热稳定性变化很快。在高等植物中，也认识到PS II的耐热性受到其他胁迫因素的影响，如光亏和缺水。在沙漠和半沙漠条件下，随着辐照和叶温的增加，这些异水结皮的含水量急剧下降。为了达到可接受的干物质产量，即使在这样不利的条件下，也需要有效的光合作用:需要同时耐受三种胁迫因素的联合作用。基于上述事实，研究了不同(光亏和水分亏)处理条件下，以毛苔(Didymodon luridus Hornsch)、毛苔(Didymodon nicholsonii Culm)、毛苔(Grimmia capillata De Not)和毛苔(Crossidium squamiferum Juratzka)为主导的完整半荒漠隐生菌结皮光合装置的热稳定性。在测量之前，样品被重新水化并转移到生长室两天。干化处理由

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Acta Biologica Plantarum Agriensis

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