Stomatal patchiness in Mediterranean evergreen sclerophylls

Beyschlag, Wolfram; Pfanz, Hardy; Ryel, Ronald J.

doi:10.1007/bf00199976

Cited by 70 publications

(13 citation statements)

References 62 publications

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“…Similar results were observed in A. unedo, throughout an entire year, by Beyschlag et al (1992), although in the same species and similar environmental conditions Raschke and Resemann (1986) observed a broad temperature optimum for photosynthesis. These latter authors concluded that rising leaf temperature could account for not more than 10% of the observed decline in A max at midday.…”

Section: Non-diffusional Limitationssupporting

confidence: 90%

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Grassi

Ripullone

Borghetti

et al. 2009

Trees

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It is still unknown whether the midday depression of photosynthesis under severe water stress, frequently observed in plants growing in a Mediterranean-type climate, is primarily a consequence of diffusional or non-diffusional limitations. We carried out combined measurements of gas exchanges and chlorophyll fluorescence in field-grown Arbutus unedo L. trees during late spring and mid summer, and a quantitative limitation analysis was performed to distinguish between the different limitations to photosynthesis, i.e., diffusional [D L = stomatal (S L) + mesophyll (MCL)] and non-diffusional (carboxylation capacity and electron transport, B L) limitations. Light-saturated assimilation at ambient CO2 (A max), stomatal conductance to water vapour (g sw) and maximum carboxylation rate (V cmax C i) showed a marked midday depression during both periods. The total limitations tended to increase during the day and were remarkably similar in June and July (50 and 48%, respectively); on a daily basis, D L was similar to B L (about 23%) in June; whereas, in July the former was predominant (38 and 4%, respectively). We concluded that the midday depression in photosynthesis was largely caused by diffusional limitations, with non-diffusional limitations playing a smaller role. Although stomatal closure was the main diffusional limitation, the decline in mesophyll conductance was not negligible during the hottest and driest period

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Section: Non-diffusional Limitationssupporting

confidence: 90%

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Grassi

Ripullone

Borghetti

et al. 2009

Trees

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“…Analogously, patchy stomatal behaviour at the canopy scale (e.g., inactivity of a proportion of sun leaves), should provide decreasing water‐use efficiency at the canopy level. Stomatal patchiness has been identified as a common phenomenon in Mediterranean species (Beyschlag et al ., 1992). Yet, the impact of stomatal patchiness on whole canopy gas exchange has never been assessed (Beyschlag & Eckstein, 1998).…”

Section: Discussionmentioning

confidence: 99%

Severe drought effects on ecosystem CO₂ and H₂O fluxes at three Mediterranean evergreen sites: revision of current hypotheses?

Reichstein

Tenhunen

Roupsard

et al. 2002

Global Change Biology

495

325

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Eddy covariance and sapflow data from three Mediterranean ecosystems were analysed via top‐down approaches in conjunction with a mechanistic ecosystem gas‐exchange model to test current assumptions about drought effects on ecosystem respiration and canopy CO2/H2O exchange. The three sites include two nearly monospecific Quercus ilex L. forests – one on karstic limestone (Puéchabon), the other on fluvial sand with access to ground water (Castelporziano) – and a typical mixed macchia on limestone (Arca di Noè). Estimates of ecosystem respiration were derived from light response curves of net ecosystem CO2 exchange. Subsequently, values of ecosystem gross carbon uptake were computed from eddy covariance CO2 fluxes and estimates of ecosystem respiration as a function of soil temperature and moisture. Bulk canopy conductance was calculated by inversion of the Penman‐Monteith equation. In a top‐down analysis, it was shown that all three sites exhibit similar behaviour in terms of their overall response to drought. In contrast to common assumptions, at all sites ecosystem respiration revealed a decreasing temperature sensitivity (Q10) in response to drought. Soil temperature and soil water content explained 70–80% of the seasonal variability of ecosystem respiration. During the drought, light‐saturated ecosystem gross carbon uptake and day‐time averaged canopy conductance declined by up to 90%. These changes were closely related to soil water content. Ecosystem water‐use efficiency of gross carbon uptake decreased during the drought, regardless whether evapotranspiration from eddy covariance or transpiration from sapflow had been used for the calculation. We evidence that this clearly contrasts current models of canopy function which predict increasing ecosystem water‐use efficiency (WUE) during the drought. Four potential explanations to those results were identified (patchy stomatal closure, changes in physiological capacities of photosynthesis, decreases in mesophyll conductance for CO2, and photoinhibition), which will be tested in a forthcoming paper. It is suggested to incorporate the new findings into current biogeochemical models after further testing as this will improve estimates of climate change effects on (semi)arid ecosystems' carbon balances.

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“…On the other hand, large drought‐induced reductions of photosynthetic capacities of more than 70%, as estimated for the Puéchabon and Arca di Noè site, seem unlikely since in drought‐adapted species only minor changes in mesophyll capacities have been found in laboratory studies [ Kaiser , 1987; Chaves , 1991; Cornic , 1994]. Instead, patchy stomatal closure over a large portion of the leaf surface has been observed for Mediterranean species as a consequence of drought [ Beyschlag et al , 1992; Beyschlag and Eckstein , 1998] and also for Quercus ilex L. [ Genty and Meyer , 1995] so that Roupsard et al [1996] concluded that stomatal closure is probably the main factor reducing CO 2 availability in the chloroplasts during drought (p. 252).…”

Section: Discussionmentioning

confidence: 99%

“…Harley and Tenhunen, 1991;Lawlor, 1995], (2) the induction of stomatal patchiness (i.e., nonnormal distribution of stomatal apertures [cf. Beyschlag et al, 1992;Beyschlag and Eckstein, 1998;Buckley et al, 1999]). The first hypothesis has meanwhile received support from leaf-level studies [Xu and Baldocchi, 2003].…”

Section: Discussionmentioning

confidence: 99%

Inverse modeling of seasonal drought effects on canopy CO₂/H₂O exchange in three Mediterranean ecosystems

et al. 2003

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[1] We present a two-criteria inverse modeling approach to analyze the effects of seasonal drought on ecosystem gas exchange at three Mediterranean sites. The three sites include two nearly monospecific Quercus ilex L. forests, one on karstic limestone (Puéchabon), the other on fluvial sand with access to groundwater (Castelporziano), and a typical multispecies shrubland on limestone (Arca di Noè). A canopy gas exchange model Process Pixel Net Ecosystem Exchange (PROXEL NEE ), which contains the Farquhar photosynthesis model coupled to stomatal conductance via the Ball-Berry model, was inverted in order to estimate the seasonal time course of canopy parameters from hourly values of ecosystem gross carbon uptake and transpiration. It was shown that an inverse estimation of leaf-level parameters was impossible when optimizing against ecosystem H 2 O or CO 2 fluxes alone (unidentifiable parameters). In contrast, a criterion that constrained the optimization against both H 2 O and CO 2 fluxes yielded stable estimates of leaf-level parameters. Two separate model inversions were implemented to test two alternative hypotheses about the response to drought: a reduction in active leaf area as a result of patchy stomatal closure or a change in photosynthetic capacities. In contrast to a previously tested hypothesis of classical (uniform) stomatal control, both hypotheses were equally able to describe the seasonality of carbon uptake and transpiration on all three sites, with a decline during the drought and recovery after autumn rainfall. Large reductions of up to 80%, in either active leaf area or photosynthetic capacities, were necessary to describe the observed carbon and water fluxes at the end of the drought period. With a threshold-type relationship, soil water content was an excellent predictor of these changes. With the drought-dependent parameter changes included, the canopy model explains 80-90% of the variance of hourly gross CO 2 uptake (root mean squared error (RMSE): 1.1-2.6 mmol m À2 s À1 ) and 70-80% of the variance of hourly transpiration (RMSE: 0.02-0.03 mm h À1 ) at all sites. In addition to drought effects, changes in leaf photosynthetic activity not related to water availability, i.e., high spring activity, were detected through the inverse modeling approach. Moreover, our study exemplifies a kind of multiconstraint inverse modeling that can be profitably used for calibrating ecosystem models that are meant for global applications with ecosystem flux data.

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Stomatal patchiness in Mediterranean evergreen sclerophylls

Cited by 70 publications

References 62 publications

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Severe drought effects on ecosystem CO₂ and H₂O fluxes at three Mediterranean evergreen sites: revision of current hypotheses?

Inverse modeling of seasonal drought effects on canopy CO₂/H₂O exchange in three Mediterranean ecosystems

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Stomatal patchiness in Mediterranean evergreen sclerophylls

Cited by 70 publications

References 62 publications

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Contribution of diffusional and non-diffusional limitations to midday depression of photosynthesis in Arbutus unedo L.

Severe drought effects on ecosystem CO2 and H2O fluxes at three Mediterranean evergreen sites: revision of current hypotheses?

Inverse modeling of seasonal drought effects on canopy CO2/H2O exchange in three Mediterranean ecosystems

Contact Info

Product

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Severe drought effects on ecosystem CO₂ and H₂O fluxes at three Mediterranean evergreen sites: revision of current hypotheses?

Inverse modeling of seasonal drought effects on canopy CO₂/H₂O exchange in three Mediterranean ecosystems