Day length regulates seasonal patterns of stomatal conductance in Quercus species

Granda, E.; Baumgarten, F.; Resco de Dios, V.; Peguero-Pina, J.; Gessler, A.; Gil-Pelegrin, E.; Sancho-Knapik, D.; Zimmerman, N. E.

doi:10.1111/pce.13665

000153635 001__ 153635
000153635 005__ 20251017144554.0
000153635 0247_ $$2doi$$a10.1111/pce.13665
000153635 0248_ $$2sideral$$a116884
000153635 037__ $$aART-2020-116884
000153635 041__ $$aeng
000153635 100__ $$aGranda, E.
000153635 245__ $$aDay length regulates seasonal patterns of stomatal conductance in Quercus species
000153635 260__ $$c2020
000153635 5060_ $$aAccess copy available to the general public$$fUnrestricted
000153635 5203_ $$aVapour pressure deficit is a major driver of seasonal changes in transpiration, but photoperiod also modulates leaf responses. Climate warming might enhance transpiration by increasing atmospheric water demand and the length of the growing season, but photoperiod-sensitive species could show dampened responses. Here, we document that day length is a significant driver of the seasonal variation in stomatal conductance. We performed weekly gas exchange measurements across a common garden experiment with 12 oak species from contrasting geographical origins, and we observed that the influence of day length was of similar strength to that of vapour pressure deficit in driving the seasonal pattern. We then examined the generality of our findings by incorporating day-length regulation into well-known stomatal models. For both angiosperm and gymnosperm species, the models improved significantly when adding day-length dependences. Photoperiod control over stomatal conductance could play a large yet underexplored role on the plant and ecosystem water balances.
000153635 540__ $$9info:eu-repo/semantics/openAccess$$aby-nc$$uhttps://creativecommons.org/licenses/by-nc/4.0/deed.es
000153635 590__ $$a7.228$$b2020
000153635 591__ $$aPLANT SCIENCES$$b11 / 235 = 0.047$$c2020$$dQ1$$eT1
000153635 592__ $$a2.645$$b2020
000153635 593__ $$aPlant Science$$c2020$$dQ1
000153635 593__ $$aPhysiology$$c2020$$dQ1
000153635 655_4 $$ainfo:eu-repo/semantics/article$$vinfo:eu-repo/semantics/publishedVersion
000153635 700__ $$aBaumgarten, F.
000153635 700__ $$aGessler, A.
000153635 700__ $$0(orcid)0000-0002-4053-6681$$aGil-Pelegrin, E.
000153635 700__ $$0(orcid)0000-0002-8903-2935$$aPeguero-Pina, J.$$uUniversidad de Zaragoza
000153635 700__ $$0(orcid)0000-0001-9584-7471$$aSancho-Knapik, D.$$uUniversidad de Zaragoza
000153635 700__ $$aZimmerman, N. E.
000153635 700__ $$aResco de Dios, V.
000153635 7102_ $$15011$$2500$$aUniversidad de Zaragoza$$bDpto. CC.Agrar.y Medio Natural$$cArea Ingeniería Agroforestal
000153635 7102_ $$15011$$2063$$aUniversidad de Zaragoza$$bDpto. CC.Agrar.y Medio Natural$$cÁrea Botánica
000153635 773__ $$g43, 1 (2020), 28-39$$pPlant cell environ.$$tPLANT CELL AND ENVIRONMENT$$x0140-7791
000153635 85641 $$uhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85075195249&doi=10.1111%2fpce.13665&partnerID=40&md5=a73038201f51771718f6fe0cb087d65b$$zTexto completo de la revista
000153635 8564_ $$s3760042$$uhttps://zaguan.unizar.es/record/153635/files/texto_completo.pdf$$yVersión publicada
000153635 8564_ $$s2141367$$uhttps://zaguan.unizar.es/record/153635/files/texto_completo.jpg?subformat=icon$$xicon$$yVersión publicada
000153635 909CO $$ooai:zaguan.unizar.es:153635$$particulos$$pdriver
000153635 951__ $$a2025-10-17-14:12:40
000153635 980__ $$aARTICLE

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