1. Leaf-level photosynthetic capacity dynamics in relation to soil and foliar nutrients along forest–savanna boundaries in Ghana and Brazil.
- Author
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Gvozdevaite, Agne, Oliveras, Imma, Domingues, Tomas Ferreira, Peprah, Theresa, Boakye, Mickey, Afriyie, Lydia, Peixoto, Karine da Silva, Farias, Josenilton de, Oliveira, Edmar Almeida de, Farias, Cassia Cristina Almeida, Prestes, Nayane Cristina Candida dos Santos, Neyret, Margot, Moore, Sam, Marimon, Beatriz Schwantes, Junior, Ben Hur Marimon, Adu-Bredu, Stephen, and Malhi, Yadvinder
- Subjects
CARBOXYLATION ,SAVANNAS ,LEAVES ,NITROGEN ,PHOTOSYNTHESIS ,PLANTS - Abstract
Forest–savanna boundaries extend across large parts of the tropics but the variability of photosynthetic capacity in relation to soil and foliar nutrients across these transition zones is poorly understood. For this reason, we compared photosynthetic capacity (maximum rate of carboxylation of Rubisco at 25 C° (V
cmax 25 ), leaf mass, nitrogen (N), phosphorus (P) and potassium (K) per unit leaf area (LMA, Narea , Parea and Karea , respectively), in relation to respective soil nutrients from 89 species at seven sites along forest–savanna ecotones in Ghana and Brazil. Contrary to our expectations, edaphic conditions were not reflected in foliar nutrient concentrations but LMA was slightly higher in lower fertility soils. Overall, each vegetation type within the ecotones demonstrated idiosyncratic and generally weak relationships between Vcmax 25 and Narea , Parea and Karea . Species varied significantly in their Vcmax 25 ↔ Narea relationship due to reduced investment of total Narea in photosynthetic machinery with increasing LMA. We suggest that studied species in the forest–savanna ecotones do not maximize Vcmax 25 per given total Narea due to adaptation to intermittent water availability. Our findings have implications for global modeling of Vcmax 25 and forest–savanna ecotone productivity. [ABSTRACT FROM AUTHOR]- Published
- 2018
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