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Palaeo-ecophysiological perspectives on plant responses to global change

, : Palaeo-ecophysiological perspectives on plant responses to global change. Trends in Ecology and Evolution 11(1): 20-23

Taxonomic classifications of plant species, based on morphological characteristics, provide a stable and robust approach for inferring taxonomic and phylogenetic relationships between extant and extinct species.

Accession: 002914722

PMID: 21237746

DOI: 10.1016/0169-5347(96)81060-3

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Related references

Beerling, D.J.; Woodward, F.I., 1995: Palaeo-ecophysiological perspectives on plant responses to global changes. Trends in Ecology & Evolution 11(1): 20-23

Kurschner, W.M.; Stulen, I.; Kuiper, P.J.C., 1997: Predictions for plant and vegetation responses to global change within a palaeo-ecophysiological perspective. Plant Physiology (Rockville) 114(3 SUPPL ): 8-9

Woodward, F.I., 1990: Global change: Translating plant ecophysiological responses to ecosystems. The physiological responses of plants to elevated CO(2) have not been incorporated into most models of ecosystem function under changed climate. These responses are now well documented, and recent work demonstrates that they can be readily include...

Lorius, C.; Oeschger, H., 1994: Palaeo-perspectives: reducing uncertainties in global change?. Ambio 23: 6

Yu, M.; Gao, Q.; Gao, S.H.a, 1997: An ecophysiological model for individual plant under global change. Plant growth is affected by atmospheric CO2 concentration in two ways. On one hand, CO2, as a substrate of assimilation, has a direct effect on plant physiological process, such as photosynthesis, respiration, transpiration and so on. On the other...

Beerling, D.J.; Woodward, F.I., 1993: Ecophysiological responses of plants to global environmental change since the Last Glacial Maximum. Ecophysiological information on the responses of plants to past global environmental changes may be obtained from Quaternary fossil leaves by measurements of (i) stomatal density, (ii) stomatal dimensions and (iii) 13C discrimination (DELTA 13C)....

Bazzaz, F.A.; Stinson, K.A., 1999: Genetic vs. environmental control of ecophysiological processes: some challenges for predicting community responses to global change. The following topics are discussed: genetic control of ecophysiological processes and the molecular basis of photosynthesis; correlations among ecophysiological traits; and using ecophysiological variation within and among species to predict commu...

Long, S.P.; Ainsworth, E.A.; Bernacchi, C.J.; Heaton, E.A.; Morgan, P.B.; Naidu, S.L.; Ort, D.R.; Zhu, X., 2002: The central role of plant biology, from molecular to ecophysiological research, in understanding and adapting to global atmospheric change. Plant Biology (Rockville) : 4

Clark, James S., 1993: Paleoecological perspectives on modeling broad-scale responses to global change. Kareiva, P M [Editor], Kingsolver, J G [Editor], Huey, R B [Editor] Biotic interactions and global change : 315-332

Omasa, K.; Nouchi, I.D.-Kok, L.J., 2005: Plant responses to air pollution and global change