Stomatal conductance limited the CO2 response of grassland in the last century

Cabrera, Juan C. Baca; Hirl, Regina T.; Schäufele, Rudi; Macdonald, A. J.; Schnyder, H.

doi:10.1186/s12915-021-00988-4

Cited by 26 publications

(28 citation statements)

References 69 publications

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“…At this point of the gradient, (a) H. comosum populations were either entirely symbiotic with Epichloë or presented a mixture of symbiotic and non‐symbiotic plants, (b) Epichloë symbiotic plants showed higher nitrogen and phosphorus concentrations than Epichloë ‐free plants and (c) plants with greater AMF colonization associated with decreased Δ 18 O p , which is indicative of enhanced stomatal conductance for comparisons at site level (e.g. Baca Cabrera et al., 2021). Understanding to what extent these eco‐physiological characteristics among H. comosum plants are driven by the symbiotic associations and how they may contribute to niche differentiation (Valladares et al., 2015) could unveil the symbioses‐driven mechanisms explaining the host species abundance (either high or low) along the natural distribution range.…”

Section: Discussionmentioning

confidence: 99%

“…Interestingly, however, Δ 18 O P also increased towards low MAP along isothermal and iso‐RH gradients (Figures S2 and S3), demonstrating that changes of Δ 18 O P with MAP were not driven by RH or temperature alone (Hirl et al., 2021). Variation of stomatal conductance, independent of RH and temperature, is a likely explanatory factor (Baca Cabrera et al., 2021). In addition, the absence of significant variation in iWUE towards arid and severely grazed sites would indicate that eventual variations of stomatal conductance were matched by proportional variations in photosynthesis (Scheidegger et al., 2000) in that range.…”

Section: Discussionmentioning

confidence: 99%

“…Variation of stomatal conductance, independent of RH and temperature, is a likely explanatory factor (Baca Cabrera et al, 2021). In addition, the absence of significant variation in iWUE towards arid and severely grazed sites would indicate that eventual variations of stomatal conductance were matched by proportional variations in photosynthesis (Scheidegger et al, 2000) in that range.…”

Section: Amf Colonization Enhanced the Aridity Response Of Cellulose-...mentioning

confidence: 99%

“…The simultaneous measurement of 13 C‐discrimination (Δ 13 C) and 18 O‐enrichment of cellulose (Δ 18 O; details in Section 2) in C 3 plants, can shed light on the interplay of plant carbon and water relations in the field (Flanagan & Farquhar, 2014). While iWUE can be estimated from Δ 13 C (Farquhar & Richards, 1984; Ma et al., 2021), Δ 18 O has been interpreted as an indicator of stomatal conductance (Barbour, 2007; Moreno‐Gutiérrez et al., 2012; Scheidegger et al., 2000), particularly in comparative studies at site level (Baca Cabrera et al., 2021), and thus, may help separating the (growing season‐integrated, assimilation‐weighted) effects of both net photosynthesis and stomatal conductance on iWUE (Baca Cabrera et al., 2021; Barbour, 2007; Scheidegger et al., 2000). Whether the dual association with Epichloë and AMF affects iWUE or Δ 18 O at site level or across natural aridity ranges of host plants has not been studied so far.…”

Section: Introductionmentioning

confidence: 99%

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Loss of fungal symbionts at the arid limit of the distribution range in a native Patagonian grass—Resource eco‐physiological relations

et al. 2021

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Crucial to our understanding of plant ecology is the consideration of the eco‐physiological responses and constraints of plant–fungal symbioses throughout the native distribution range of their host. We examined key eco‐physiological roles of two co‐occurring fungal symbionts [Epichloë endophytes and arbuscular mycorrhizal fungi (AMF)] in the endemic grass Hordeum comosum across a wide bioclimatic gradient and contrasting grazing severity. We sampled H. comosum plants along four humid‐to‐arid transects in Patagonia, Argentina, covering its entire distribution range and determined Epichloë presence, AMF root colonization, nitrogen and phosphorus concentration, intrinsic water‐use efficiency (iWUE, the ratio of photosynthesis to stomatal conductance) and 18O‐enrichment of cellulose in shoots. Root colonization by AMF increased with Epichloë presence. All plants hosted Epichloë in the humid range of the gradient, but symbioses occurrence decreased towards arid sites which also displayed severe grazing symptoms at site level. Symbiosis with Epichloë correlated positively with shoot nitrogen concentration in the centre of the distribution range, and with shoot phosphorus concentration across the entire distribution range. The site‐level relationship of AMF colonization with 18O‐enrichment and iWUE suggested that mycorrhiza boosted stomatal conductance in humid environments but curbed it in arid environments. While the interpretation of interactions and potential causalities from observational studies should be done with caution, this study demonstrates distinct correlations between plant–fungal symbiont associations and key resource parameters (phosphorus, nitrogen and iWUE vs. 18O‐enrichment). Such correlations may suggest particular functional roles for these symbionts in the ecology of their host plant. A free Plain Language Summary can be found within the Supporting Information of this article.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Amf Colonization Enhanced the Aridity Response Of Cellulose-...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Loss of fungal symbionts at the arid limit of the distribution range in a native Patagonian grass—Resource eco‐physiological relations

et al. 2021

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“…WUE in the Park Grass Experiment at Rothamsted, and resulted in improved estimations of historical WUE (Baca Cabrera et al, 2021).…”

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Overestimated gains in water‐use efficiency by global forests

Gong

Ting

et al. 2022

Global Change Biology

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Evidence of field‐scale shifts in transpiration dynamics following bark beetle infestation: Stomatal conductance responses

Li,

Shao,

et al. 2024

Hydrological Processes

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Amplified eruptive outbreaks of bark beetles as a consequence of climate change can cause tree mortality that significantly affects terrestrial water and carbon fluxes. However, the lack of field‐scale observations of underlying physiological mechanisms currently hampers the expression of such ecosystem disturbances in predictive modelling. Based on a unique flux tower dataset from a subalpine forest located in the Rocky Mountains, mechanisms of stomatal response to an extensive bark beetle outbreak were investigated using various models and parametrizations. The datasets cover a decade, including the periods of pre‐infestation, infestation, and post‐infestation. Field measurements showed considerable decreases in evapotranspiration (ET), transpiration (T), and leaf area index (LAI) during the two‐year infestation period compared to the pre‐infestation period. Model interpretations of observed water and carbon fluxes indicated that the overall reductions in T were not solely due to decreased LAI, but also to changes in physiological behaviours. The summer season's canopy‐scale stomatal conductance was significantly reduced during the infestation period, from 0.0018 to 0.0011 m s−1. One primary reason for the observed variations is likely that the bark beetle infestation hampers the water transport in the xylem. The damage of xylem has important implications for water use efficiency (WUE), which also significantly influences the parameterization of stomatal conductance. When using stomatal conductance models to forecast ecosystem dynamics, it is crucial to recalibrate the model's parameters to ensure the accurate depiction of stomatal dynamics during various infestation periods. The neglect of the temporal variability of canopy‐scale stomatal conductance under ecosystem disturbances (e.g., bark beetle infestations) in current earth system models, therefore, requires specific attention in assessments of large‐scale water and carbon balances.

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Stomatal conductance limited the CO2 response of grassland in the last century

Cited by 26 publications

References 69 publications

Loss of fungal symbionts at the arid limit of the distribution range in a native Patagonian grass—Resource eco‐physiological relations

Loss of fungal symbionts at the arid limit of the distribution range in a native Patagonian grass—Resource eco‐physiological relations

Overestimated gains in water‐use efficiency by global forests

Evidence of field‐scale shifts in transpiration dynamics following bark beetle infestation: Stomatal conductance responses

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