Zobrazeno 1 - 10
of 31
pro vyhledávání: '"Tali D. Lee"'
Publikováno v:
Nature Geoscience. 13:787-793
Disentangling impacts of multiple global changes on terrestrial carbon cycling is important, both in its own right and because such impacts can dampen or accelerate increases in atmospheric CO2 concentration. Here we report on an eight-year grassland
Publikováno v:
Plant, Cell & Environment. 43:1862-1878
Global changes can interact to affect photosynthesis and thus ecosystem carbon capture, yet few multi-factor field studies exist to examine such interactions. Here, we evaluate leaf gas exchange responses of five perennial grassland species from four
Publikováno v:
Global Change Biology. 25:3031-3044
Uncertainty about long-term leaf-level responses to atmospheric CO2 rise is a major knowledge gap that exists because of limited empirical data. Thus, it remains unclear how responses of leaf gas exchange to elevated CO2 (eCO2 ) vary among plant spec
Publikováno v:
Plant, cellenvironmentREFERENCES. 43(8)
Global changes can interact to affect photosynthesis and thus ecosystem carbon capture, yet few multi-factor field studies exist to examine such interactions. Here, we evaluate leaf gas exchange responses of five perennial grassland species from four
Publikováno v:
Science. 360:317-320
A short-term trend reversed Theory and empirical data both support the paradigm that C 4 plant species (in which the first product of carbon fixation is a four-carbon molecule) benefit less from rising carbon dioxide (CO 2 ) concentrations than C 3 s
Autor:
Artur Stefanski, Stephen P. Bentivenga, Jeremiah A. Henning, Tali D. Lee, Evan Weiher, Deborah Freund
Publikováno v:
Restoration Ecology. 26:124-133
Most plant communities support a diverse assemblage of arbuscular mycorrhizal fungi (AMF). AMF communities have the potential to affect plant community structure and vice versa. We examined AMF sporulation in a 4.5-ha reconstructed prairie in Eau Cla
Publikováno v:
Global change biology. 25(9)
Uncertainty about long-term leaf-level responses to atmospheric CO
Publikováno v:
Science. 361
Nie and colleagues suggest a key role for interannual climate variation as an explanation for the temporal dynamics of an unexpected 20-year reversal of biomass responses of C 3 -C 4 grasses to elevated CO 2 . However, we had already identified some
Publikováno v:
Science (New York, N.Y.). 361(6407)
Nie and colleagues suggest a key role for interannual climate variation as an explanation for the temporal dynamics of an unexpected 20-year reversal of biomass responses of C
Publikováno v:
Science. 361
Wolf and Ziska suggest that soil and species attributes can explain an unexpected 20-year reversal of C 3 -C 4 grass responses to elevated CO 2 . This is consistent with our original interpretation; however, we disagree with the assertion that such e