Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers
MB Fernández-de-Simón, I Aranda - Tree Physiology, 2023 - academic.oup.com
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
[PDF][PDF] Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers
M Férriz, D Martin-Benito… - Tree …, 2023 - academic.oup.com
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers
M Férriz, D Martin-Benito… - Tree …, 2023 - pubmed.ncbi.nlm.nih.gov
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers.
M Férriz, D Martin-Benito… - Tree …, 2023 - search.ebscohost.com
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers.
M Férriz, D Martin-Benito, MB Fernández-De-Simón… - 2023 - cabidigitallibrary.org
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers
M Férriz, D Martin-Benito… - Instituto de Ciencias …, 2023 - digital.csic.es
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
[HTML][HTML] Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought tolerance of two phylogenetically close conifers
M Férriz, D Martin-Benito… - Tree …, 2023 - ncbi.nlm.nih.gov
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functionally close coexisting species may exhibit differences in drought vulnerability large …
Functional phenotypic plasticity mediated by water stress and [CO2] explains differences in drought-tolerance of two phylogenetically close conifers.
M Férriz, D Martin-Benito… - Tree …, 2023 - europepmc.org
Forests are threatened globally by increased recurrence and intensity of hot droughts.
Functionally close coexisting species may exhibit differences in drought-vulnerability large …
Functionally close coexisting species may exhibit differences in drought-vulnerability large …