Aim-Geographic, climatic, and soil factors are major drivers of plant beta diversity, but their importance for dryland plant communities is poorly known. This study aims to: i) characterize patterns of beta diversity in global drylands, ii) detect common environmental drivers of beta diversity, and iii) test for thresholds in environmental conditions driving potential shifts in plant species composition.Location-224 sites in diverse dryland plant communities from 22 geographical regions in six continents. Europe PMC Funders Author Manuscripts Europe PMC Funders Author ManuscriptsMethods-Beta diversity was quantified with four complementary measures: the percentage of singletons (species occurring at only one site), Whittake's beta diversity (β(W)), a directional beta diversity metric based on the correlation in species occurrences among spatially contiguous sites (β(R 2 )), and a multivariate abundance-based metric (β(MV)). We used linear modelling to quantify the relationships between these metrics of beta diversity and geographic, climatic, and soil variables.Results-Soil fertility and variability in temperature and rainfall, and to a lesser extent latitude, were the most important environmental predictors of beta diversity. Metrics related to species identity (percentage of singletons and β(W)) were most sensitive to soil fertility, whereas those metrics related to environmental gradients and abundance ((β(R 2 )) and β(MV)) were more associated with climate variability. Interactions among soil variables, climatic factors, and plant cover were not important determinants of beta diversity. Sites receiving less than 178 mm of annual rainfall differed sharply in species composition from more mesic sites (> 200 mm).Main conclusions-Soil fertility and variability in temperature and rainfall are the most important environmental predictors of variation in plant beta diversity in global drylands. Our results suggest that those sites annually receiving ~ 178 mm of rainfall will be especially sensitive to future climate changes. These findings may help to define appropriate conservation strategies for mitigating effects of climate change on dryland vegetation.
Grazing represents the most extensive use of land worldwide. Yet its impacts on ecosystem services remain uncertain because pervasive interactions between grazing pressure, climate, soil properties, and biodiversity may occur but have never been addressed simultaneously. Using a standardized survey at 98 sites across six continents, we show that interactions between grazing pressure, climate, soil, and biodiversity are critical to explain the delivery of fundamental ecosystem services across drylands worldwide. Increasing grazing pressure reduced ecosystem service delivery in warmer and species-poor drylands, whereas positive effects of grazing were observed in colder and species-rich areas. Considering interactions between grazing and local abiotic and biotic factors is key for understanding the fate of dryland ecosystems under climate change and increasing human pressure.
1. Multiple ecosystem functions need to be considered simultaneously to manage and protect the several ecosystem services that are essential to people and their environments. Despite this, cost effective, tangible, relatively simple and globally relevant methodologies to monitor in situ soil multifunctionality, that is, the provision of multiple ecosystem functions by soils, have not been tested at the global scale.2. We combined correlation analysis and structural equation modelling to explore whether we could find easily measured, field-based indicators of soil multifunctionality (measured using functions linked to the cycling and storage of soil carbon, nitrogen and phosphorus). To do this, we gathered soil data from 120 dryland ecosystems from five continents.Handling Editor: Kechang Niu 3. Two soil surface attributes measured in situ (litter incorporation and surface aggregate stability) were the most strongly associated with soil multifunctionality, even after accounting for geographic location and other drivers such as climate, woody cover, soil pH and soil electric conductivity. The positive relationships between surface stability and litter incorporation on soil multifunctionality were greater beneath the canopy of perennial vegetation than in adjacent, open areas devoid of vascular plants. The positive associations between surface aggregate stability and soil functions increased with increasing mean annual temperature. Synthesis and applications.Our findings demonstrate that a reduced suite of easily measured in situ soil surface attributes can be used as potential indicators of soil multifunctionality in drylands world-wide. These attributes, which relate to plant litter (origin, incorporation, cover), and surface stability, are relatively cheap and easy to assess with minimal training, allowing operators to sample many sites across widely varying climatic areas and soil types. The correlations of these variables are comparable to the influence of climate or soil, and would allow cost-effective monitoring of soil multifunctionality under changing land-use and environmental conditions. This would provide important information for evaluating the ecological impacts of land degradation, desertification and climate change in drylands world-wide.
-(Spatio-temporal dynamics of Melocactus ernestii subsp. ernestii (Cactaceae) in northwestern Brazil): Melocactus ernestii Vaupel ssp. ernestii occurs in discontinuous outcrops in eastern Brazil. We investigated the spatio-temporal pattern of mortality events and survival of seedlings of M. ernestii relationship with plants and perennials, from the use of plots, assigned with the aid of measuring tapes, which were taken the Cartesian coordinates of the centroid of the stages of development, with subsequent analysis of point patterns based on Ripley's K function. Were mapped in plots 686 individuals of M. ernestii. The spatial pattern varied depending on the scale of the development stage and degree of weathering of the outcrops. The recruitment events and mortality were spatially structured and influenced by seasonal pulses of rainfall. Seedlings emerged ca. 50 cm from the centroid of adults. From the 136 seedlings monitored for 18 months, 84% died. The results showed that microsites initially effective in the maintenance of seed germination may not be effective in the establishment of seedlings. The magnitude of biotic interactions in stressful environments is species-specific and indicates that a positive association between adult plants and seedling survival is not consistent over time. This type of modeling population allows a better understanding of the role of positive and negative interactions as forces community structure, and may help to understand the complexity of biotic interactions in severe environmental gradients.Key words -independent labeling model, recruitment, Ripley's K function, spatial structure RESUMO -(Dinâmica espaço-temporal de Melocactus ernestii subsp. ernestii (Cactaceae) no Nordeste do Brasil) Melocactus ernestii Vaupel subsp. ernestii ocorre em afloramentos rochosos descontínuos no leste do Brasil. O presente estudo investigou o padrão espaço-temporal dos eventos de mortalidade e sobrevivência de plântulas da M. ernestii e a relação com as plantas perenes, a partir da utilização de parcelas, alocadas com auxílio de trenas, onde foram tomadas as coordenadas cartesianas do centróide dos estádios de desenvolvimento, com posterior análises de padrões de ponto baseado na função K de Ripley. Foram mapeados nas parcelas 686 indivíduos da M. ernestii. O padrão espacial variou em função da escala, do estádio de desenvolvimento e do grau de intemperização dos afloramentos. Os eventos de recrutamento e mortalidade foram espacialmente estruturados e influenciados por pulsos de precipitação sazonais. As plântulas emergiram a ca. 50 cm do centróide dos adultos. Das 136 plântulas monitoradas em 18 meses, 84% morreram. Os resultados mostraram que microsítios inicialmente eficazes na manutenção de sementes e promotores da germinação não necessariamente podem ser eficazes para o estabelecimento das plântulas. A magnitude das interações bióticas em ambientes estressantes é espécie-específica e indica que associação positiva entre plantas adultas e sobrevivência de plântulas não é consistente...
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