肉质植物对植物水分胁迫的响应。
Responses of succulents to plant water stress.
机构信息
Department of Biology, University of California, Riverside, California 92521.
出版信息
Plant Physiol. 1978 Mar;61(3):327-30. doi: 10.1104/pp.61.3.327.
Experiments were performed to test the hypothesis that succulents "shift" their method of photosynthetic metabolism in response to environmental change. Our data showed that there were at least three different responses of succulents to plant water status. When plant water status of Portulacaria afra (L.) Jacq. was lowered either by withholding water or by irrigating with 2% NaCl, a change from C(3)-photosynthesis to Crassulacean acid metabolism (CAM) occurred. Fluctuation of titratable acidity and nocturnal CO(2) uptake was induced in the stressed plants. Stressed Peperomia obtusifolia A. Dietr. plants showed a change from C(3)-photosynthesis to internal cycling of CO(2). Acid fluctuation commenced in response to stress but exogenous CO(2) uptake did not occur. Zygocactus truncatus Haworth plants showed a pattern of acid fluctuation and nocturnal CO(2) uptake typical of CAM even when well irrigated. The cacti converted from CAM to an internal CO(2) cycle similar to Peperomia when plants were water-stressed. Reverse phase gas exchange in succulents results in low water loss to carbon gain. Water is conserved and low levels of metabolic activity are maintained during drought periods by complete stomatal closure and continual fluctuation of organic acids.
进行了实验以检验肉质植物“改变”其光合作用代谢方式以适应环境变化的假说。我们的数据表明,肉质植物对植物水分状况至少有三种不同的反应。当马齿苋(Portulacaria afra(L.)Jacq.)的植物水分状况通过停水或用 2%NaCl 灌溉来降低时,会从 C(3)-光合作用转变为景天酸代谢(CAM)。受胁迫的植物中诱导了可滴定酸度和夜间 CO(2)摄取的波动。受胁迫的豆瓣绿(Peperomia obtusifolia A. Dietr.)植物显示从 C(3)-光合作用转变为 CO(2)的内部循环。酸度波动是响应胁迫而开始的,但没有发生外源 CO(2)摄取。即使浇水良好,柱尾仙人掌(Zygocactus truncatus Haworth)植物也表现出典型的 CAM 酸度波动和夜间 CO(2)摄取模式。仙人掌在水分胁迫下会从 CAM 转变为类似于豆瓣绿的内部 CO(2)循环。肉质植物的反向气相交换导致水损失对碳增益的比率降低。通过完全关闭气孔和持续波动有机酸,水分得以保存,代谢活动水平在干旱期间得以维持。
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