Phosphorus responses of C 3 and C 4 species

An hypothesis was formulated that phosphorus (P) partitioning in tissues of C4 leaves would permit C4 plants to resist P deficiency better than C3 plants. To test this hypothesis, 12 C3, C4, and C3-C4 intermediate species were grown at adequate, deficient, and severely deficient P supply in a solid-phase-buffered sand culture system to characterize photosynthetic and growth responses. Species differed considerably in response to P stress. The growth of C3 species was more sensitive to P supply than C4 species, but C3 and C4 species had similar photosynthetic P use efficiency, and C4 species did not have low leaf P content, contrary to our hypothesis. In fact, leaf photosynthetic rates were not correlated with growth...

Categories: Publication; Types: Citation, Journal Citation; Tags: C3 plants, C4 plants, Journal of Experimental Botany, Phosphorus deficiency, growth response

Linking precipitation and C3-C4 plant production to resource dynamics in higher-trophic-level consumers.

In many ecosystems, seasonal shifts in temperature and precipitation induce pulses of primary productivity that vary in phenology, abundance, and nutritional quality. Variation in these resource pulses could strongly influence community composition and ecosystem function, because these pervasive bottom-up forces play a primary role in determining the biomass, life cycles, and interactions of organisms across trophic levels. The focus of this research is to understand how consumers across trophic levels alter resource use and assimilation over seasonal and interannual timescales in response to climatically driven changes in pulses of primary productivity. We measured the carbon isotope ratios (delta(13)C) of plant,...

Categories: Publication; Types: Citation, Journal Citation; Tags: C3 plants, C4 plants, Chihuahuan Desert, Ecology, New Mexico, All tags... USA, carbon, food web, lizard, plant photosynthetic type, precipitation, primary production, pulse, resource, stable isotope, Fewer tags