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W104214121 startingPage "157" @default.
W104214121 abstract "Some vascular angiosperm plants, which are sometimes addressed as “resurrection plants,” can survive severe drought periods and regain full physiological function in the subsequent rainy season. These desiccation-tolerant (DT) plants are poikilohydric and capable of surviving the loss of at least 80–95% of their cell water content for shorter or longer periods. DT plants are important constituents of many ecosystems from the arctic (lichen and moss vegetations) to the tropics (lichen, moss, and mainly vascular/flower vegetations). The inselbergs in the tropics, as habitats ecologically isolated from their surrounding areas, are evolutionary centers of the flowering DT plants and vegetations. DT plants may be subdivided into homoiochlorophyllous (HDT) plants and poikilochlorophyllous (PDT) plants, which are using contrasting strategies to solve the same ecological problem of longer severe dryness. The HDT plants keep their chlorophyll and thylakoids during desiccation, whereas the PDT strategy is bound to desiccoplasts, a unique type of chloroplast, that break down and reconstitute their chlorophylls and thylakoids. The HDT pteridophytes and angiosperms are generally adapted to more rapid alternations of wet and dry periods than the PDT species. The PDT strategy, in turn, has evolved in habitats where the plants remain in the desiccated state for 6–10 months. Under these conditions, it is evidently more advantageous to dismantle the whole photosynthetic apparatus and to reconstitute it after rehydration. This chapter summarizes the recent developments in our understanding of physiology and ecophysiology of HDT and PDT plants and vegetations." @default.
W104214121 created "2016-06-24" @default.
W104214121 creator A5028391133 @default.
W104214121 creator A5055094800 @default.
W104214121 date "2011-01-01" @default.
W104214121 modified "2023-10-17" @default.
W104214121 title "Ecophysiology of Homoiochlorophyllous and Poikilochlorophyllous Desiccation-Tolerant Plants and Vegetations" @default.
W104214121 cites W100663483 @default.
W104214121 cites W1023353791 @default.
W104214121 cites W1236164473 @default.
W104214121 cites W1475247318 @default.
W104214121 cites W1488981096 @default.
W104214121 cites W1544767178 @default.
W104214121 cites W1564866740 @default.
W104214121 cites W172432520 @default.
W104214121 cites W1966215842 @default.
W104214121 cites W1967153011 @default.
W104214121 cites W1968167549 @default.
W104214121 cites W1970526491 @default.
W104214121 cites W1972613710 @default.
W104214121 cites W1972736582 @default.
W104214121 cites W1973398937 @default.
W104214121 cites W1974342008 @default.
W104214121 cites W1974827607 @default.
W104214121 cites W1977571680 @default.
W104214121 cites W1978487812 @default.
W104214121 cites W1990868717 @default.
W104214121 cites W1994841774 @default.
W104214121 cites W1995219905 @default.
W104214121 cites W2005239138 @default.
W104214121 cites W2006171523 @default.
W104214121 cites W2011977596 @default.
W104214121 cites W2012908013 @default.
W104214121 cites W2013676079 @default.
W104214121 cites W2023519902 @default.
W104214121 cites W2023678991 @default.
W104214121 cites W2026114462 @default.
W104214121 cites W2026305403 @default.
W104214121 cites W2027297060 @default.
W104214121 cites W2027940278 @default.
W104214121 cites W2029263787 @default.
W104214121 cites W2031144889 @default.
W104214121 cites W2033334963 @default.
W104214121 cites W2033819092 @default.
W104214121 cites W2035055554 @default.
W104214121 cites W2036784995 @default.
W104214121 cites W2054651187 @default.
W104214121 cites W2062724206 @default.
W104214121 cites W2071169057 @default.
W104214121 cites W2071602192 @default.
W104214121 cites W2084717855 @default.
W104214121 cites W2087602236 @default.
W104214121 cites W2087995560 @default.
W104214121 cites W2088649999 @default.
W104214121 cites W2090179635 @default.
W104214121 cites W2099217433 @default.
W104214121 cites W2114435173 @default.
W104214121 cites W2115191518 @default.
W104214121 cites W2116420636 @default.
W104214121 cites W2118095887 @default.
W104214121 cites W2118180508 @default.
W104214121 cites W2118248990 @default.
W104214121 cites W2119394533 @default.
W104214121 cites W2125934787 @default.
W104214121 cites W2141619405 @default.
W104214121 cites W2151843709 @default.
W104214121 cites W2167473896 @default.
W104214121 cites W2173454068 @default.
W104214121 cites W2224646525 @default.
W104214121 cites W2316700986 @default.
W104214121 cites W2320569658 @default.
W104214121 cites W2331083321 @default.
W104214121 cites W2334876380 @default.
W104214121 cites W2413952654 @default.
W104214121 cites W2588576007 @default.
W104214121 cites W343653321 @default.
W104214121 cites W4240479111 @default.
W104214121 cites W4249423410 @default.
W104214121 cites W59453439 @default.
W104214121 cites W84361105 @default.
W104214121 doi "https://doi.org/10.1007/978-3-642-19106-0_9" @default.
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