Rainfall continentality, via the winter Gams angle, provides a new dimension to biogeographical distributions in the western United States

Michalet, Richard; Choler, Philippe; Callaway, Ragan M.; Whitham, Thomas G.

doi:10.1111/geb.13223

Cited by 22 publications

(21 citation statements)

References 42 publications

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“…The study was conducted in a site called Alme‐Gharatikan (37°19'52.42" N, 56°6' 0.96" E), located in Golestan National Park, one of the most important national parks and Biosphere reserves in Iran. Altitude ranges between 1,700 and 2,000 m a. s. l. Climate is semi‐arid continental, with a dry summer season as in mediterranean climates and dry and cold winters due to rainshadow effects (Michalet et al, 2021). Mean annual precipitation and temperature are 550 mm and 9.8ºC, respectively (Golestan National Park report, 2015).…”

Section: Methodsmentioning

confidence: 99%

Fire slightly decreases the competitive effects of a thorny cushion shrub in a semi‐arid mountain steppe in the short term

Bahalkeh

Abedi

Tilaki

et al. 2021

Applied Vegetation Science

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Questions Studies in alpine environments have highlighted dominant facilitative effects of cushion species for diversity. Many fewer studies have assessed the effects of cushion shrubs in drier and less cold mountain habitats and how these effects vary within the shrub canopy and with increasing drought stress with exposure and disturbance by fire. Location A mountain steppe of the Golestan National Park in the semi‐arid climate of northeast Iran. Methods We quantified the cover of understorey species at the center and edge of the canopy of the thorny cushion shrub Onobrychis cornuta and in paired open areas, in north and south exposures and unburned and burned plots, two years after a fire. Soil chemical variables and moisture were measured in treatments. We quantified cushions’ center and edge effects on understorey species cover with the Relative Interaction Index (RII). Treatment effects on RII cover were analyzed with generalized linear mixed‐effects models (GLMM) and species composition with Correspondence Analysis. Results In unburned plots, competition for cover was very high at cushion centers and strongly decreased at cushion edges. Exposure stress did not affect competition in unburned plots. Fire slightly decreased competition but only at center cushion shrub position and at south exposure. Species composition was mostly affected by exposure and fire treatments, although there was subtle variation in species composition among patches due to fire. Cushion position, fire and exposure treatments affected soil moisture and chemical variables, but soil changes did not explain cushion effects on understorey cover and their variations along treatments. Conclusions The effects of the cushion shrub were highly negative and in particular at cushion center, likely due to interference and competition for light in a dry and not too cold environment. Fire only slightly decreased competition in the short term, likely due to the delayed response of understorey species to disturbance induced by fire.

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Section: Methodsmentioning

confidence: 99%

Fire slightly decreases the competitive effects of a thorny cushion shrub in a semi‐arid mountain steppe in the short term

Bahalkeh

Abedi

Tilaki

et al. 2021

Applied Vegetation Science

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“…The climate is temperate oceanic with 931 mm of annual precipitation. As for other oceanic climates, winter is the rainiest season and temperatures are mild (the average seasonal winter temperature is 7.1°C; Michalet et al, 2021). Summer is less rainy but not dry (the average seasonal summer temperature is 20.7°C).…”

Section: Study Sites and Target Speciesmentioning

confidence: 96%

Species stress tolerance and community competitive effects drive differences in species composition between calcareous and siliceous plant communities

et al. 2021

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1. Both chemical and physical properties of soils have been used for two centuries for explaining differences in species composition and diversity between plant communities from calcareous and siliceous soils. Here, we examine the prediction from the 'physical hypothesis', which proposes that species from siliceous soils are absent from calcareous soils because of high drought stress, while species from calcareous soils are absent from siliceous soils because of high competition due to higher water availability. This hypothesis therefore predicts a trade-off between stress tolerance and competitive response that allows calcareous and siliceous species to dominate their respective communities. There has been no attempt to experimentally assess these predictions.2. We cross-transplanted with and without neighbours using a removal experiment, two dominant species from calcareous soils (Bromus erectus and Brachypodium sylvaticum) and two species from siliceous soils (Pseudarrhenatherum longifolium and Deschampsia flexuosa) in herbaceous communities from the two soils types.We repeated the experiment 4 years, taking advantage of inter-annual climatic variability to test the interplay between year quality (dry vs. wet years) and soil types on survival responses with and without neighbours. We quantified species stress tolerances, their competitive responses and the competitive effect of the two community types.3. In the absence of neighbours, species from siliceous soils had much lower survival than species from calcareous soils during dry years, in particular on calcareous soils. It indicates a lower stress tolerance of siliceous species and a higher level of stress occurring on calcareous soils. Competition strongly reduced the survival of calcareous but not siliceous species, indicating a greater competitive response of the latter and competition was more important on siliceous soils than on calcareous soils during wet years. However, we found that species stress tolerances were more important than competitive effect of neighbours in driving differences in species composition. 4. Synthesis. The contrasting responses found for dominant species from calcareous and siliceous soils support the trade-off between stress tolerance and competitive | 4133

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“…In addition, summer rainfall and soil moisture become more variable with increasing aridity, likely due to our sampling gradient spanning a wider latitudinal gradient (Figure 1a). Studies that disentangle the effects of rainfall seasonality ( sensu Michalet et al, 2021) would be of further interest.…”

Section: Discussionmentioning

confidence: 99%

“…Studies that disentangle the effects of rainfall seasonality (sensu Michalet et al, 2021) would be of further interest.…”

Section: Changes In Woody Species With Water Availabilitymentioning

confidence: 99%

Occurrence of Australian woody species is driven by soil moisture and available phosphorus across a climatic gradient

Ding

Travers

Eldridge

2021

J Vegetation Science

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Questions Woody species are crucial biotic components in many of Earth’s terrestrial ecosystems because they support multiple ecosystem functions. The occurrence of woody species (i.e. their likelihood of being present at a single position) is driven by both climate and soil properties. However, empirical evidence is lacking on how multiple environmental factors regulate woody species occurrence across various climate regimes, limiting our ability to predict woody species distribution under different climate change scenarios. Location Woody plant species in eastern Australia; 1,500 km gradient. Methods We surveyed 6,353 mature (height >4 m) woody plants from 62 woody species at 150 sites along a 1,500 km climatic (i.e. aridity) gradient in eastern Australia, and used a generalized linear mixed model to explore the impact of summer rainfall, available soil phosphorus in the surface layer (0–10 cm), subsurface (100–200 cm) soil moisture and clay content, and interactions between aridity and the three soil variables on woody species occurrence (presence/absence). Results The overall occurrence of Australian woody species declined as the concentration of available soil phosphorus in the surface layer increased, with the impacts varying with increasing aridity. Subsurface soil moisture had strong positive effects on woody species occurrence in mesic areas, but the effect was attenuated with increasing aridity. Subsurface soil clay regulated the distribution of woody species, with finer soils promoting the likelihood of species occurrence in the dry subhumid zone, whereas coarser soils supported more woody species in the arid zone. Conclusions Our study provides empirical evidence that the distribution of Australian woody species is regulated by large‐scale shifts in soil moisture and available soil phosphorus, and local‐scale heterogeneity in soil texture. Our results suggest that forecasted climate change may restrict the distribution of woody species preferring particular soils, but expand the range of woody species that occur on dry or infertile soils.

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Rainfall continentality, via the winter Gams angle, provides a new dimension to biogeographical distributions in the western United States

Cited by 22 publications

References 42 publications

Fire slightly decreases the competitive effects of a thorny cushion shrub in a semi‐arid mountain steppe in the short term

Fire slightly decreases the competitive effects of a thorny cushion shrub in a semi‐arid mountain steppe in the short term

Species stress tolerance and community competitive effects drive differences in species composition between calcareous and siliceous plant communities

Occurrence of Australian woody species is driven by soil moisture and available phosphorus across a climatic gradient

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