Data

Leaf Level Physiology, Chemistry and Structural Traits, Great Western Woodlands SuperSite, 2014

TERN Australian SuperSite Network
Fürstenau Togashi, Henrique ; Bloomfield, Keith ; Prentice, Colin ; Evans, Bradley ; Atkin, Owen, Prof ; Prober, Suzanne ; Macfarlane, Craig
Viewed: [[ro.stat.viewed]] Cited: [[ro.stat.cited]] Accessed: [[ro.stat.accessed]]
ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=http://www.supersites.net.au/knb/metacat/supersite.302/html&rft.title=Leaf Level Physiology, Chemistry and Structural Traits, Great Western Woodlands SuperSite, 2014&rft.identifier=supersite.302&rft.publisher=TERN Australian SuperSite Network&rft.description=Set-up of ACi curves, N, P and LMA values for dominant species. Establish the extent to which rates of light saturated photosynthesis, Vcmax and Jmax change in response to associated traits and to climatic moisture in the Great Western Woodlands. Experimental design and methods: In April and October 2013, we surveyed ACi curves and related leaf traits (area:mass ratios, and concentrations of nitrogen and phosphorus) in 37 species growing at the Great Western Woodlands TERN - SuperSite. Leaves were sampled from different trees ranging from 1 to 4 replicates per specie. Asat(light saturated photosynthesis), Amax (CO2 saturated photosynthesis), Ci (intercellular partial pressure of CO2) and Rlight(CO2 evolution from mitochondria in the light, other than that associated with the PCO cycle) were used to calculate rates of Vcmax (maximum velocity of the carboxylase) and Jmax (maximum rate of carboxylation allowed by the electron transport). Vcmax and Jmax were corrected for temperature.&rft.creator=Fürstenau Togashi, Henrique &rft.creator=Bloomfield, Keith &rft.creator=Prentice, Colin &rft.creator=Evans, Bradley &rft.creator=Atkin, Owen &rft.creator=Prober, Suzanne &rft.creator=Macfarlane, Craig &rft.date=2015&rft.edition=2&rft.coverage=Great Western Woodlands SuperSite&rft.coverage=120.65521,-30.19184&rft_rights=Data remain property of the Macquarie University and ANU – release of data requires case-by-case approval by owner of data (Henrique Furstenau Togashi)&rft_subject=Photosynthesis&rft_subject=leaf respiration&rft_subject=leaf nitrogen&rft_subject=leaf phosphorus&rft_subject=ACi curves&rft_subject=Vcmax&rft_subject=Jmax&rft_subject=CO2 saturation&rft_subject=PLANT BIOLOGY&rft_subject=BIOLOGICAL SCIENCES&rft.type=dataset&rft.language=English Access the data

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Data remain property of the Macquarie University and ANU – release of data requires case-by-case approval by owner of data (Henrique Furstenau Togashi)

Brief description

Set-up of ACi curves, N, P and LMA values for dominant species. Establish the extent to which rates of light saturated photosynthesis, Vcmax and Jmax change in response to associated traits and to climatic moisture in the Great Western Woodlands. Experimental design and methods: In April and October 2013, we surveyed ACi curves and related leaf traits (area:mass ratios, and concentrations of nitrogen and phosphorus) in 37 species growing at the Great Western Woodlands TERN - SuperSite. Leaves were sampled from different trees ranging from 1 to 4 replicates per specie. Asat(light saturated photosynthesis), Amax (CO2 saturated photosynthesis), Ci (intercellular partial pressure of CO2) and Rlight(CO2 evolution from mitochondria in the light, other than that associated with the PCO cycle) were used to calculate rates of Vcmax (maximum velocity of the carboxylase) and Jmax (maximum rate of carboxylation allowed by the electron transport). Vcmax and Jmax were corrected for temperature.

Data time period: 2013 to 2013

This dataset is part of a larger collection

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120.65521,-30.19184

120.65521,-30.19184

text: Great Western Woodlands SuperSite

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  • Local : supersite.302