We examined whether variations in photosynthetic capacity are linked to variations in the environment and/or associated leaf traits for tropical moist forests (TMFs) in the Andes/western Amazon regions of Peru.We compared photosynthetic capacity (maximal rate of carboxylation of Rubisco (V-cmax), and the maximum rate of electron transport (J(max))), leaf mass, nitrogen (N) and phosphorus (P) per unit leaf area (M-a, N-a and P-a, respectively), and chlorophyll from 210 species at 18 field sites along a 3300-m elevation gradient. Western blots were used to quantify the abundance of the CO2-fixing enzyme Rubisco.Area- and N-based rates of photosynthetic capacity at 25 degrees C were higher in upland than lowland TMFs, underpinned by greater investment of N in photosynthesis in high-elevation trees. Soil [P] and leaf Pa were key explanatory factors for models of area-based Vcmax and Jmax but did not account for variations in photosynthetic N-use efficiency. At any given N-a and P-a, the fraction of N allocated to photosynthesis was higher in upland than lowland species. For a small subset of lowland TMF trees examined, a substantial fraction of Rubisco was inactive.These results highlight the importance of soil- and leaf-P in defining the photosynthetic capacity of TMFs, with variations in N allocation and Rubisco activation state further influencing photosynthetic rates and N-use efficiency of these critically important forests.
Leaf-level photosynthetic capacity in lowland Amazonian and high-elevation Andean tropical moist forests of Peru / Bahar N.H.A.; Ishida F.Y.; Weerasinghe L.K.; Guerrieri R.; O'Sullivan O.S.; Bloomfield K.J.; Asner G.P.; Martin R.E.; Lloyd J.; Malhi Y.; Phillips O.L.; Meir P.; Salinas N.; Cosio E.G.; Domingues T.F.; Quesada C.A.; Sinca F.; Escudero Vega A.; Zuloaga Ccorimanya P.P.; del Aguila-Pasquel J.; Quispe Huaypar K.; Cuba Torres I.; Butron Loayza R.; Pelaez Tapia Y.; Huaman Ovalle J.; Long B.M.; Evans J.R.; Atkin O.K.;. - In: NEW PHYTOLOGIST. - ISSN 0028-646X. - ELETTRONICO. - 214:3(2017), pp. 1002-1018. [10.1111/nph.14079]
Leaf-level photosynthetic capacity in lowland Amazonian and high-elevation Andean tropical moist forests of Peru
Guerrieri R.;
2017
Abstract
We examined whether variations in photosynthetic capacity are linked to variations in the environment and/or associated leaf traits for tropical moist forests (TMFs) in the Andes/western Amazon regions of Peru.We compared photosynthetic capacity (maximal rate of carboxylation of Rubisco (V-cmax), and the maximum rate of electron transport (J(max))), leaf mass, nitrogen (N) and phosphorus (P) per unit leaf area (M-a, N-a and P-a, respectively), and chlorophyll from 210 species at 18 field sites along a 3300-m elevation gradient. Western blots were used to quantify the abundance of the CO2-fixing enzyme Rubisco.Area- and N-based rates of photosynthetic capacity at 25 degrees C were higher in upland than lowland TMFs, underpinned by greater investment of N in photosynthesis in high-elevation trees. Soil [P] and leaf Pa were key explanatory factors for models of area-based Vcmax and Jmax but did not account for variations in photosynthetic N-use efficiency. At any given N-a and P-a, the fraction of N allocated to photosynthesis was higher in upland than lowland species. For a small subset of lowland TMF trees examined, a substantial fraction of Rubisco was inactive.These results highlight the importance of soil- and leaf-P in defining the photosynthetic capacity of TMFs, with variations in N allocation and Rubisco activation state further influencing photosynthetic rates and N-use efficiency of these critically important forests.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
