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1.
Plant Cell Environ ; 41(3): 576-588, 2018 03.
Artículo en Inglés | MEDLINE | ID: mdl-29314069

RESUMEN

From 2011 to 2013, Texas experienced its worst drought in recorded history. This event provided a unique natural experiment to assess species-specific responses to extreme drought and mortality of four co-occurring woody species: Quercus fusiformis, Diospyros texana, Prosopis glandulosa, and Juniperus ashei. We examined hypothesized mechanisms that could promote these species' diverse mortality patterns using postdrought measurements on surviving trees coupled to retrospective process modelling. The species exhibited a wide range of gas exchange responses, hydraulic strategies, and mortality rates. Multiple proposed indices of mortality mechanisms were inconsistent with the observed mortality patterns across species, including measures of the degree of iso/anisohydry, photosynthesis, carbohydrate depletion, and hydraulic safety margins. Large losses of spring and summer whole-tree conductance (driven by belowground losses of conductance) and shallower rooting depths were associated with species that exhibited greater mortality. Based on this retrospective analysis, we suggest that species more vulnerable to drought were more likely to have succumbed to hydraulic failure belowground.


Asunto(s)
Sequías , Modelos Biológicos , Árboles/fisiología , Diospyros/fisiología , Juniperus/fisiología , Fotosíntesis/fisiología , Hojas de la Planta/fisiología , Raíces de Plantas/fisiología , Tallos de la Planta/fisiología , Estomas de Plantas/fisiología , Prosopis/fisiología , Quercus/fisiología , Texas , Agua/fisiología
2.
Nat Commun ; 15(1): 2078, 2024 Mar 07.
Artículo en Inglés | MEDLINE | ID: mdl-38453933

RESUMEN

Plant diversity effects on community productivity often increase over time. Whether the strengthening of diversity effects is caused by temporal shifts in species-level overyielding (i.e., higher species-level productivity in diverse communities compared with monocultures) remains unclear. Here, using data from 65 grassland and forest biodiversity experiments, we show that the temporal strength of diversity effects at the community scale is underpinned by temporal changes in the species that yield. These temporal trends of species-level overyielding are shaped by plant ecological strategies, which can be quantitatively delimited by functional traits. In grasslands, the temporal strengthening of biodiversity effects on community productivity was associated with increasing biomass overyielding of resource-conservative species increasing over time, and with overyielding of species characterized by fast resource acquisition either decreasing or increasing. In forests, temporal trends in species overyielding differ when considering above- versus belowground resource acquisition strategies. Overyielding in stem growth decreased for species with high light capture capacity but increased for those with high soil resource acquisition capacity. Our results imply that a diversity of species with different, and potentially complementary, ecological strategies is beneficial for maintaining community productivity over time in both grassland and forest ecosystems.


Asunto(s)
Biodiversidad , Ecosistema , Plantas , Biomasa , Bosques , Pradera
3.
Ecol Lett ; 16(5): 617-25, 2013 May.
Artículo en Inglés | MEDLINE | ID: mdl-23438189

RESUMEN

As biodiversity is declining at an unprecedented rate, an important current scientific challenge is to understand and predict the consequences of biodiversity loss. Here, we develop a theory that predicts the temporal variability of community biomass from the properties of individual component species in monoculture. Our theory shows that biodiversity stabilises ecosystems through three main mechanisms: (1) asynchrony in species' responses to environmental fluctuations, (2) reduced demographic stochasticity due to overyielding in species mixtures and (3) reduced observation error (including spatial and sampling variability). Parameterised with empirical data from four long-term grassland biodiversity experiments, our prediction explained 22-75% of the observed variability, and captured much of the effect of species richness. Richness stabilised communities mainly by increasing community biomass and reducing the strength of demographic stochasticity. Our approach calls for a re-evaluation of the mechanisms explaining the effects of biodiversity on ecosystem stability.


Asunto(s)
Biodiversidad , Ecosistema , Modelos Teóricos , Biomasa , Simulación por Computador , Alemania , Minnesota , Modelos Biológicos , Países Bajos , Poaceae , Dinámica Poblacional , Procesos Estocásticos , Texas
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