Data

Australia-wide photosynthetic trait dataset

The University of Western Australia
Westerband, Andrea ; Wright, Ian ; Maire, Vincent ; Paillassa, Jennifer ; Prentice, I. Colin ; Atkin, Owen ; Bloomfield, Keith ; Cernusak, Lucas ; Dong, Ning ; Gleason, Sean ; Guilherme Pereira, Caio ; Lambers, Hans ; Leishman, Michelle ; Malhi, Yadvinder ; Nolan, Rachael
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.5061/dryad.j9kd51cgr&rft.title=Australia-wide photosynthetic trait dataset&rft.identifier=10.5061/dryad.j9kd51cgr&rft.publisher=DRYAD&rft.description=Least-cost theory posits that C3 plants should balance rates of photosynthetic water loss and carboxylation in relation to the relative acquisition and maintenance costs of resources required for these activities. Here we investigated the dependency of photosynthetic traits on climate and soil properties using a new Australia-wide trait dataset spanning 528 species from 67 sites. We tested the hypotheses that plants on relatively cold or dry sites, or on relatively more fertile sites, would typically operate at greater CO2 drawdown (lower ratio of leaf internal to ambient CO2, Ci:Ca) during light-saturated photosynthesis, and at higher leaf N per area (Narea) and higher carboxylation capacity (Vcmax 25) for a given rate of stomatal conductance to water, gsw. These results would be indicative of plants having relatively higher water costs than nutrient costs. In general, our hypotheses were supported. Soil total phosphorus (P) concentration and (more weakly) soil pH exerted positive effects on the Narea-gsw and Vcmax 25-gsw slopes, and negative effects on Ci:Ca. The P effect strengthened when the effect of climate was removed via partial regression. We observed similar trends with increasing soil cation exchange capacity and clay content, which affect soil nutrient availability, and found that soil properties explained similar amounts of variation in the focal traits as climate did. Although climate typically explained more trait variation than soil did, together they explained up to 52% of variation in the slope relationships and soil properties explained up to 30% of the variation in individual traits. Soils influenced photosynthetic traits as well as their coordination. In particular, the influence of soil P likely reflects Australia's geologically ancient low-relief landscapes with highly leached soils. Least-cost theory provides a valuable framework for understanding trade-offs between resource costs and use in plants, including limiting soil nutrients.&rft.creator=Westerband, Andrea &rft.creator=Wright, Ian &rft.creator=Maire, Vincent &rft.creator=Paillassa, Jennifer &rft.creator=Prentice, I. Colin &rft.creator=Atkin, Owen &rft.creator=Bloomfield, Keith &rft.creator=Cernusak, Lucas &rft.creator=Dong, Ning &rft.creator=Gleason, Sean &rft.creator=Guilherme Pereira, Caio &rft.creator=Lambers, Hans &rft.creator=Leishman, Michelle &rft.creator=Malhi, Yadvinder &rft.creator=Nolan, Rachael &rft.date=2022&rft_subject=soil nutrients&rft_subject=least-cost theory of photosynthesis&rft_subject=Plant functional traits&rft_subject=water-use efficiency&rft_subject=optimality theory&rft_subject=trait coordination&rft_subject=Australia&rft_subject=soil phosphorus&rft_subject=nutrient-use efficiency&rft.type=dataset&rft.language=English Access the data

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"Least-cost theory" posits that C3 plants should balance rates of photosynthetic water loss and carboxylation in relation to the relative acquisition and maintenance costs of resources required for these activities. Here we investigated the dependency of photosynthetic traits on climate and soil properties using a new Australia-wide trait dataset spanning 528 species from 67 sites. We tested the hypotheses that plants on relatively cold or dry sites, or on relatively more fertile sites, would typically operate at greater CO2 drawdown (lower ratio of leaf internal to ambient CO2, Ci:Ca) during light-saturated photosynthesis, and at higher leaf N per area (Narea) and higher carboxylation capacity (Vcmax 25) for a given rate of stomatal conductance to water, gsw. These results would be indicative of plants having relatively higher water costs than nutrient costs. In general, our hypotheses were supported. Soil total phosphorus (P) concentration and (more weakly) soil pH exerted positive effects on the Narea-gsw and Vcmax 25-gsw slopes, and negative effects on Ci:Ca. The P effect strengthened when the effect of climate was removed via partial regression. We observed similar trends with increasing soil cation exchange capacity and clay content, which affect soil nutrient availability, and found that soil properties explained similar amounts of variation in the focal traits as climate did. Although climate typically explained more trait variation than soil did, together they explained up to 52% of variation in the slope relationships and soil properties explained up to 30% of the variation in individual traits. Soils influenced photosynthetic traits as well as their coordination. In particular, the influence of soil P likely reflects Australia's geologically ancient low-relief landscapes with highly leached soils. Least-cost theory provides a valuable framework for understanding trade-offs between resource costs and use in plants, including limiting soil nutrients.

Notes

External Organisations
Macquarie University; Western Sydney University; Université du Québec à Trois-Rivières; Australian National University; Imperial College London; James Cook University (QLD); Massachusetts Institute of Technology; University of Oxford; Department of Agriculture (United States)
Associated Persons
Caio Guilherme Pereira (Creator)Andrea Westerband (Creator); Ian Wright (Creator); Vincent Maire (Creator); Jennifer Paillassa (Creator); I. Colin Prentice (Creator); Owen Atkin (Creator); Keith Bloomfield (Creator); Lucas Cernusak (Creator); Ning Dong (Creator); Sean Gleason (Creator); Michelle Leishman (Creator); Yadvinder Malhi (Creator); Rachael Nolan (Creator)

Issued: 2022-12-02

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