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Physiological Ecology of CAM

Physiological Ecology of CAM. Undergraduate level Notes. “Rationale” Behind CAM. In addition to the benefits experienced by C4 plants (see C4 Photosynthesis resource), CAM entails a number of other advantages under certain environmental conditions.

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Physiological Ecology of CAM

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  1. Physiological Ecology of CAM Undergraduate level Notes

  2. “Rationale” Behind CAM • In addition to the benefits experienced by C4 plants (see C4 Photosynthesis resource), CAM entails a number of other advantages under certain environmental conditions. • Amongst these is the reduction in water loss via the stomata, as the stomata are opened when evapotranspiration is lowest (i.e. temperatures are lower and atmospheric vapour pressures are higher), namely at night.

  3. Disadvantages of CAM • Like C4, CAM entails an energetic cost which prevents it being advantageous over C3 in cool, well-watered climes. • Requires water – is NOT, as is often asserted, an adaptation for completely dry environments, despite its prevention of water loss, as storage of the acids requires water. Succulent CAM plants are not sacks of water but sacks of acid. Thus, they require a regular, if infrequent, wetting.

  4. Morphological and Physiological Adaptations of CAM Plants • Succulent plants, euphorbs and cacti that have CAM tend to share a suite of morphological characteristics related to the same ecological factors that favour their having CAM. • Given that most CAM plants live in semi-arid environments with little other vegetation, the “scarcity-accessibility” hypothesis suggests a strong herbivory threat. This favours the reduction of leaves to spines for defence, thus, in cacti, the enlarged stem becomes the photosynthetic organ.

  5. Morphological and Physiological Adaptations of CAM Plants • In some plants, e.g. Opuntia (prickly pear), the fleshy stems become flattened in one direction forming cladodes. • CAM itself demands a certain level of succulence – that acidic liquid must be stored somewhere.

  6. Geographical Distribution Redrawn from Crassulacean Acid Metabolism Analysis of an Ecological Adaptation, Volume 30, M. Kluge, I.P. Ting.

  7. Phylogenetic Distribution • Found in over 16,000 species. • Not just angiosperm species but also ferns and some gymnosperms. • Is found in terrestrial and aquatic species.

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