[Impact of a cardiac rehabilitation program on adherence to the mediterranean diet and physical activity in acute coronary syndrome]. / Impacto de un programa de rehabilitación cardiaca en la adherencia a la dieta mediterránea y la actividad física en el síndrome coronario agudo.

Objective: To evaluate the efficacy of a cardiac rehabilitation program (CRP) in improving adherence to non-pharmacological secondary prevention in patients with acute coronary syndrome (ACS). Method: Retrospective study of patients with ACS referred to CRP in a tertiary hospital from 2018 to 2021. Pre-post differences in adherence to physical activity, Mediterranean diet, smoking, and motivation to change were analyzed. Age, sex, and baseline motivation were analyzed in predicting change in adherence. Results: 418 patients were included. At the end of the CRP, the adherence to the mediterranean diet increased (p < 0.05; d = 0.83), frequency of physical activity increased by 2.16 (p < 0.05), and motivation to change remained constant (p = 0.94). Both women and men improved their adherence to the mediterranean diet. Both sexes performed more physical activity at the end of the CRP (1.89 times more in men and 4 times more in women; p < 0.05). An association was found between initial motivation and greater changes in adherence to the mediterranean diet (p < 0.05). An inversely proportional difference was observed between age and adherence to the mediterranean diet (p < 0.05). Conclusions: The CRP, in our hospital environment, has an effect of improving adherence to the mediterranean diet and physical exercise in patients with ACS. The change in adherence to the diet increases as the motivation to change the baseline increases, and age is inversely related to the change in adherence.

Objetivo: Evaluar la eficacia de un programa de rehabilitación cardiaca (PRC) sobre la mejora de la adherencia a las medidas de prevención secundaria no farmacológicas en pacientes con síndrome coronario agudo (SCA). Método: Estudio retrospectivo con pacientes con SCA derivados a PRC en un hospital terciario de 2018 a 2021. Se analizaron diferencias pre-post de adherencia a actividad física, dieta mediterránea, tabaquismo y motivación al cambio. Se analizaron la edad, el sexo y la motivación basal en la predicción del cambio de adherencia. Resultados: Se incluyeron 418 pacientes. Al final del PRC aumentó la adherencia a la dieta mediterránea (p < 0.05; d = 0.83), la frecuencia de actividad física aumentó 2,16 (p < 0.05) y la motivación al cambio se mantuvo constante (p = 0.94). Tanto las mujeres como los hombres mejoraron la adherencia a la dieta mediterránea. Ambos sexos realizaron más ejercicio físico al final del PRC (1.89 veces más los hombres y 4 las mujeres; p < 0.05). Se encontró una asociación entre motivación inicial y mayores cambios en la adherencia a la dieta mediterránea (p < 0.05). Se observó una diferencia inversamente proporcional entre la edad y la adherencia a la dieta mediterránea (p < 0.05). Conclusiones: El PRC, en nuestro medio hospitalario, mejora la adherencia a la dieta mediterránea y al ejercicio físico en los pacientes con SCA. La adherencia a la dieta mediterránea aumenta a medida que lo hace la motivación al cambio basal, mientras que la edad está inversamente relacionada con el cambio de adherencia.

Transgenerational plasticity to drought: contrasting patterns of non-genetic inheritance in two semiarid Mediterranean shrubs.

BACKGROUND AND AIMS: Intra- and transgenerational plasticity may provide substantial phenotypic variation to cope with environmental change. Since assessing the unique contribution of the maternal environment to the offspring phenotype is challenging in perennial, outcrossing plants, little is known about the evolutionary and ecological implications of transgenerational plasticity and its persistence over the life cycle in these species. We evaluated how intra- and transgenerational plasticity interplay to shape the adaptive responses to drought in two perennial Mediterranean shrubs. METHODS: We used a novel common garden approach that reduced within-family genetic variation in both the maternal and offspring generations by growing the same maternal individual in two contrasting watering environments, well-watered and drought, in consecutive years. We then assessed phenotypic differences at the reproductive stage between offspring reciprocally-grown in the same environments. KEY RESULTS: Maternal drought had an effect on offspring performance only in Helianthemum squamatum. Offspring of drought-stressed plants showed more inflorescences, less sclerophyllous leaves and higher growth rates in both watering conditions, and heavier seeds under drought, than offspring of well-watered maternal plants. Maternal drought also induced similar plasticity patterns across maternal families, showing a general increase in seed mass in response to offspring drought, a pattern not observed in the offspring of well-watered plants. In contrast, both species expressed immediate adaptive plasticity, and the magnitude of intragenerational plasticity was larger than the transgenerational plastic responses. CONCLUSIONS: Our results highlight that adaptive effects associated with maternal drought can persist beyond the seedling stage and provide evidence of species-level variation in the expression of transgenerational plasticity. Such differences between co-occurring Mediterranean species in the prevalence of this form of non-genetic inheritance may result in differential vulnerability to climate change.

Eficacia de un programa de rehabilitación cardiaca en polideportivo municipal comparado con el programa hospitalario: ensayo controlado aleatorizado eCARCEX / Efficacy of a cardiac rehabilitation program in a municipal sports center compared to the hospital program: randomized controlled trial eCARCEX

Fundamento. El objetivo de este estudio es analizar los efectos de un programa de rehabilitación cardiaca (PRC) extrahospitalario en un centro municipal deportivo sobre la capacidad funcional y la adherencia al ejercicio físico, entre otras variables, en comparación con un modelo hospitalario. Métodos. Ensayo clínico aleatorizado con dos grupos paralelos de pacientes con síndrome coronario agudo que realizaron un PRC con ejercicio físico moderado interválico coordinado con educación en hábitos saludables en un centro deportivo municipal (GE) y en un hospital terciario (GC), entre septiembre de 2019 y junio de 2020. Se analizaron variables de adherencia, antropométricas, clínicas, psicológicas, de fuerza, de prevención secundaria (dieta, tabaco) y capacidad funcional en la prueba de ergoespirometría. Resultados. Veintidós pacientes completaron el PRC (GC=10, GE=12). Se observaron mejoras significativas pre-post en GC (colesterol, test de la silla, frecuencia cardiaca en VT1 y VT2, y vatios en VT1) y en GE (colesterol HDL, triglicéridos, test de la silla, y frecuencia cardiaca y vatios en VT1). Estas mejoras fueron mayores en el GC para la frecuencia cardiaca en VT2 (11,17 vs 2,88 lpm) y en el GE para el colesterol HDL (11,0 vs 0,63 mg/dL). Conclusiones. Este estudio no ha podido determinar la eficacia de los PRC extrahospitalarios por falta de potencia (abundantes abandonos debidos al confinamiento por COVID-19). A pesar de ello, en el GE se observó mayor aumento en colesterol HDL que en el GC, aunque la frecuencia cardiaca en VT2 fue mayor en el GC (AU)

Background. This study aimed to analyze the effects of an outpa-tient cardiac rehabilitation program in a municipal sports center on functional capacity and adherence to physical activity – among other variables – compared to an in-hospital program.Methods. Randomized clinical trial that included two parallel groups of acute coronary syndrome patients who performed a car-diac rehabilitation program that consisted of moderate physical ex-ercise intervals along with learning healthy habits in a municipal sports center (EG) and in a tertiary hospital (CG) between Septem-ber 2019 and June 2020. We collected the following data: compli-ance, anthropometrical, clinical, psychological variables, diet and tobacco habits, strength and functional capacity from ergospirom-etry. Results. Twenty-two patients completed the cardiac rehabilitation program (EG=12, CG=10). Significant improvement was observed for cholesterol, the sit-and-stand test, cardiac frequency in VT1 and VT2, and watts in VT1 in the CG, and for HDL-cholesterol, triglycerides, the sit-and-stand test, and frequency, and watts in VT1 in the EG. Better achievement was found in the CG for cardiac frequency in VT2 (11.17 vs 2.88 bpm) and in EG for HDL-cholesterol (11.0 vs 0.63 mg/dL).Conclusions. We are unable to determine the effectiveness of the out-of-hospital cardiac rehabilitation program due to a lack of power (high number of withdrawals caused by COVID-19 lockdown). How-ever, the EG achieved higher HDL-cholesterol levels, while cardiac frequency in VT2 was higher in the CG (AU)

Efficacy of a cardiac rehabilitation program in a municipal sports center compared to the hospital program: randomized controlled trial eCARCEX.

BACKGROUND: This study aimed to analyze the effects of an outpatient cardiac rehabilitation program in a municipal sports center on functional capacity and adherence to physical exercise - among other variables - compared to an in-hospital program. METHODS: Randomized clinical trial that included two parallel groups of acute coronary syndrome patients who performed a cardiac rehabilitation program that consisted of moderate physical exercise intervals along with learning healthy habits in a municipal sports center (experimental group) and in a tertiary hospital (control group) between September 2019 and June 2020. We collected the following data: compliance, anthropometrical, clinical, psychological variables, diet and tobacco habits, strength and functional capacity from ergospirometry. RESULTS: Twenty-two patients completed the cardiac rehabilitation program (experimental group=12, control group=10). Significant improvement was observed for cholesterol, the sit-and-stand test, cardiac frequency in VT1 and VT2, and watts in VT1 in the control group, and for HDL-cholesterol, triglycerides, the sit-and-stand test, and frequency, and watts in VT1 in the experimental group. Better achievement was found in the control group for cardiac frequency in VT2 (11.17 vs 2.88 bpm) and in EG for HDL-cholesterol (11.0 vs 0.63 mg/dL). CONCLUSIONS: We are unable to determine the effectiveness of the out-of-hospital cardiac rehabilitation program due to a lack of power (high number of withdrawals caused by COVID-19 lockdown). However, the experimented group achieved higher HDL-cholesterol levels, while cardiac frequency in VT2 was higher in the control group.

Ecological drivers of fine-scale distribution of arbuscular mycorrhizal fungi in a semiarid Mediterranean scrubland.

BACKGROUND AND AIMS: Arbuscular mycorrhizal (AM) fungi enhance the uptake of water and minerals by the plant hosts, alleviating plant stress. Therefore, AM fungal-plant interactions are particularly important in drylands and other stressful ecosystems. We aimed to determine the combined and independent effects of above- and below-ground plant community attributes (i.e. diversity and composition), soil heterogeneity and spatial covariates on the spatial structure of the AM fungal communities in a semiarid Mediterranean scrubland. Furthermore, we evaluated how the phylogenetic relatedness of both plants and AM fungi shapes these symbiotic relationships. METHODS: We characterized the composition and diversity of AM fungal and plant communities in a dry Mediterranean scrubland taxonomically and phylogenetically, using DNA metabarcoding and a spatially explicit sampling design at the plant neighbourhood scale. KEY RESULTS: The above- and below-ground plant community attributes, soil physicochemical properties and spatial variables explained unique fractions of AM fungal diversity and composition. Mainly, variations in plant composition affected the AM fungal composition and diversity. Our results also showed that particular AM fungal taxa tended to be associated with closely related plant species, suggesting the existence of a phylogenetic signal. Although soil texture, fertility and pH affected AM fungal community assembly, spatial factors had a greater influence on AM fungal community composition and diversity than soil physicochemical properties. CONCLUSIONS: Our results highlight that the more easily accessible above-ground vegetation is a reliable indicator of the linkages between plant roots and AM fungi. We also emphasize the importance of soil physicochemical properties in addition to below-ground plant information, while accounting for the phylogenetic relationships of both plants and fungi, because these factors improve our ability to predict the relationships between AM fungal and plant communities.

Global patterns of tree density are contingent upon local determinants in the world's natural forests.

Previous attempts to quantify tree abundance at global scale have largely neglected the role of local competition in modulating the influence of climate and soils on tree density. Here, we evaluated whether mean tree size in the world's natural forests alters the effect of global productivity on tree density. In doing so, we gathered a vast set of forest inventories including >3000 sampling plots from 23 well-conserved areas worldwide to encompass (as much as possible) the main forest biomes on Earth. We evidence that latitudinal productivity patterns of tree density become evident as large trees become dominant. Global estimates of tree abundance should, therefore, consider dependencies of latitudinal sources of variability on local biotic influences to avoid underestimating the number of trees on Earth and to properly evaluate the functional and social consequences.

Warming reverses directionality in the richness-abundance relationship in ephemeral Mediterranean plant communities.

Recent findings in forests worldwide have demonstrated how directionality in the richness-abundance causality shifts along global climate gradients: The so-called more-species hypothesis (richness determines abundance) prevails in Earth's most productive climates, whereas the opposite, the so-called more-individuals hypothesis (abundance determines richness), is more likely to prevail in climatically harsh conditions. Since temporal variability is the norm, a critical question is whether this directionality shift is also a function of temporal climatic fluctuations locally. Here, we analyze whether directionality in the richness-abundance relationship is contingent on temporal variability over 10 annual consecutive realizations in ephemeral plant assemblages. Our results support the idea that the more-species hypothesis prevailed in the most benign years, whereas the more-individuals hypothesis did so during less productive years, which were significantly linked to the warmest years. These results support the idea that rising temperatures can reverse directionality in the richness-abundance relationship in these annual plant communities, and therefore, climate warming can have a significant effect on the relationship between diversity and ecosystem functions, such as productivity, by altering the prevalence of primary mechanisms involved in species assembly.

[Systematic review on the effectiveness of cognitive multisensory rehabilitation].

Cognitive multisensory rehabilitation (CMR) -a therapeutic approach to help recover movement using neurocognitive exercises- activates patient's perceptive and cognitive processes, key for motor learning. The aim of this systematic review was to assess the effectiveness of CMR on motor function and quality of life and compare the findings with other rehabilitation approaches or no-intervention in neurological and trauma adult and pediatric patients. We carried out a systematic review of randomized controlled clinical trials, pilot studies, and case series in PubMed, PEDro, Cochrane Library, and the CINHAL Complete database published between 2012 and 2021. Ten studies met the eligibility criteria. CMR provides similar or superior benefits compared to other types of approaches for the restoration of upper limb function, gait, balance, and quality of life in neurological and trauma patients. Further research with larger samples and higher methodological quality need to be developed to de-termine its long-term effectiveness.

Eficacia de la rehabilitación cognitiva multisensorial: revisión sistemática / Systematic review on the effectiveness of cognitive multisensory rehabilitation

La rehabilitación cognitiva multisensorial (RCM) es un tratamiento para la recuperación del movimiento a través de ejercicios neurocognitivos que activan los procesos perceptivos y cognitivos del paciente fundamentales para el aprendizaje motor. El objetivo de la revisión fue evaluar la eficacia de la RCM sobre funcionalidad y calidad de vida en pacientes adultos y pediátricos en comparación con otras intervenciones o la no intervención. Se realizó una revisión sistemática de ensayos clínicos controlados aleatorizados, estudios piloto y series de casos, publicados entre 2012 y 2021 en las bases de datos PubMed, PEDro, Cochrane Library y CINHAL Complete. Diez estudios cumplieron los criterios de elegibilidad. La RCM muestra beneficios similares o superiores a otras intervenciones sobre la funcionalidad del miembro superior, la marcha, el equilibrio y la calidad de vida en pacientes neurológicos y traumatológicos. Se necesitan más estudios con mayores muestras y calidad para valorar los efectos a largo plazo.(AU)

Cognitive multisensory rehabilitation (CMR) –a thera-peutic approach to help recover movement using neurocog-nitive exercises– activates patient’s perceptive and cognitiveprocesses, key for motor learning. The aim of this system-atic review was to assess the effectiveness of CMR on mo-tor function and quality of life and compare the findingswith other rehabilitation approaches or no-intervention inneurological and trauma adult and pediatric patients. Wecarried out a systematic review of randomized controlledclinical trials, pilot studies, and case series in PubMed, PE-Dro, Cochrane Library, and the CINHAL Complete databasepublished between 2012 and 2021. Ten studies met the eli-gibility criteria. CMR provides similar or superior benefitscompared to other types of approaches for the restoration ofupper limb function, gait, balance, and quality of life in neu-rological and trauma patients. Further research with largersamples and higher methodological quality need to be devel-oped to determine its long-term effectiveness.(AU)

Recent and ancient evolutionary events shaped plant elemental composition of edaphic endemics: a phylogeny-wide analysis of Iberian gypsum plants.

The analysis of plant elemental composition and the underlying factors affecting its variation are a current hot topic in ecology. Ecological adaptation to atypical soils may shift plant elemental composition. However, no previous studies have evaluated its relevance against other factors such as phylogeny, climate or individual soil conditions. We evaluated the effect of the phylogeny, environment (climate, soil), and affinity to gypsum soils on the elemental composition of 83 taxa typical of Iberian gypsum ecosystems. We used a new statistical procedure (multiple phylogenetic variance decomposition, MPVD) to decompose total explained variance by different factors across all nodes in the phylogenetic tree of target species (covering 120 million years of Angiosperm evolution). Our results highlight the relevance of phylogeny on the elemental composition of plants both at early (with the development of key preadaptive traits) and recent divergence times (diversification of the Iberian gypsum flora concurrent with Iberian gypsum deposit accumulation). Despite the predominant phylogenetic effect, plant adaptation to gypsum soils had a strong impact on the elemental composition of plants, particularly on sulphur concentrations, while climate and soil effects were smaller. Accordingly, we detected a convergent evolution of gypsum specialists from different lineages on increased sulphur and magnesium foliar concentrations.

Functional diversity regulates the effects of habitat degradation on biocrust phylogenetic and taxonomic diversities.

Biocrusts are major contributors to dryland diversity, functioning, and services. However, little is known about how habitat degradation will impact multiple facets of biocrust diversity and measurable functional traits. We evaluated changes in taxonomic, functional, and phylogenetic diversity of biocrust-forming lichens along a habitat degradation gradient related to the presence of linear infrastructure (i.e., a road) and a profound agricultural driven transformation. To do so, we selected 50 remnants of a Mediterranean shrubland. We considered several surrogates of habitat quality and causal disturbance on the various diversity facets of biocrusts by using structural equation modeling, hypothesizing that habitat degradation primarily affects functional diversity, which in turn regulates changes in taxonomic and phylogenetic diversities, and also that taxonomic and phylogenetic diversities are coupled. Fragment connectivity, distance to linear infrastructure (i.e., a road) and, particularly, soil fertility (i.e., soil P concentration), had mostly negative effects on biocrust functional diversity, which in turn affected both taxonomic and phylogenetic diversities. However, we found no direct effects of habitat degradation variables on the taxonomic and phylogenetic diversities. We also found that increases in phylogenetic diversity had a positive effect on taxonomic diversity along the habitat degradation gradient. Our results indicate that functional diversity of biocrusts is strongly affected by habitat degradation, which may profoundly alter their contribution to ecosystem functioning and services. Furthermore, functional diversity regulates the response of biocrust taxonomic and phylogenetic diversity to habitat degradation. These findings indicate that habitat degradation alters and simplifies the diversity of functional traits of biocrust-forming lichens, leading to biodiversity loss, with important consequences for the conservation of global drylands biodiversity.

Functional structure of plant communities along salinity gradients in Iranian salt marshes.

Salt marshes are unique habitats between sea or saline lakes and land that need to be conserved from the effects of global change. Understanding the variation in functional structure of plant community along environmental gradients is critical to predict the response of plant communities to ongoing environmental changes. We evaluated the changes in the functional structure of halophytic communities along soil gradients including salinity, in Iranian salt marshes; Lake Urmia, Lake Meyghan, Musa estuary, and Nayband Bay (Iran). We established 48 plots from 16 sites in four salt marshes and sampled 10 leaves per species to measure leaf functional traits. Five soil samples were sampled from each plot and 30 variables were analyzed. We examined the changes in the functional structure of plant communities (i.e., functional diversity [FD] and community weighted mean [CWM]) along local soil gradients using linear mixed effect models. Our results showed that FD and CWM of leaf thickness tended to increase with salinity, while those indices related to leaf shape decreased following soil potassium content. Our results suggest that the variations in functional structure of plant communities along local soil gradients reveal the effect of different ecological processes (e.g., niche differentiation related to the habitat heterogeneity) that drive the assembly of halophytic plant communities in SW Asian salt marshes.

Amphibians of the equatorial seasonally dry forests of Ecuador and Peru.

Seasonally dry forests (SDFs) are one of the most challenging ecosystems for amphibians, fueling the diversity of this group of vertebrates. An updated inventory of native amphibians present in the Equatorial SDF is provided, which extends along the Pacific coast of Ecuador and northwestern Peru. The study is based on an extensive field sampling (two thirds of the total records) carried out throughout the Equatorial SDF, along with a compilation of the available information on distribution of amphibians in the region from published scientific papers, museum collections and on-line databases. The final dataset included 2,032 occurrence records for 30 amphibian species, belonging to eight anuran families. Additionally, data regarding conservation status, habitat use, spawn deposition site, reproductive mode, and body size, along with an identification key for all encountered species are provided. The results indicate a strong sampling bias with a deficit in the Peruvian part of the study area, and a need for urgent inventories targeted at under-sampled areas, using modern taxonomic methods. The study emphasizes the conservation priorities in the Equatorial SDF, based on the distribution, conservation status and life-history data. This information should be useful for the local authorities and institutions involved in the management and conservation of biodiversity in SDF.

Diverse phylogenetic neighborhoods enhance community resistance to drought in experimental assemblages.

Although the role played by phylogeny in the assembly of plant communities remains as a priority to complete the theory of species coexistence, experimental evidence is lacking. It is still unclear to what extent phylogenetic diversity is a driver or a consequence of species assembly processes. We experimentally explored how phylogenetic diversity can drive the community level responses to drought conditions in annual plant communities. We manipulated the initial phylogenetic diversity of the assemblages and the water availability in a common garden experiment with two irrigation treatments: average natural rainfall and drought, formed with annual plant species of gypsum ecosystems of Central Spain. We recorded plant survival and the numbers of flowering and fruiting plants per species in each assemblage. GLMMs were performed for the proportion of surviving, flowering, fruiting plants per species and for total proportion of surviving species and plants per pot. In water limited conditions, high phylogenetic diversity favored species coexistence over time with higher plant survival and more flowering and fruiting plants per species and more species and plants surviving per pot. Our results agree with the existence of niche complementarity and the convergence of water economy strategies as major mechanisms for promoting species coexistence in plant assemblages in semiarid Mediterranean habitats. Our findings point to high phylogenetic diversity among neighboring plants as a plausible feature underpinning the coexistence of species, because the success of each species in terms of surviving and producing offspring in drought conditions was greater when the initial phylogenetic diversity was higher. Our study is a step forward to understand how phylogenetic relatedness is connected to the mechanisms determining the maintenance of biodiversity.

Phenotypic integration does not constrain phenotypic plasticity: differential plasticity of traits is associated to their integration across environments.

Understanding constraints to phenotypic plasticity is key given its role on the response of organisms to environmental change. It has been suggested that phenotypic integration, the structure of trait covariation, could limit trait plasticity. However, the relationship between plasticity and integration is far from resolved. Using a database of functional plasticity to drought of a Mediterranean shrub that included 20 ecophysiological traits, we assessed environmentally-induced changes in phenotypic integration and whether integration constrained the expression of plasticity, accounting for the within-environment phenotypic variation of traits. Furthermore, we provide the first test of the association between differential trait plasticity and trait integration across an optimum and a stressful environment. Phenotypic plasticity was positively associated with phenotypic integration in both environments, but this relationship was lost when phenotypic variation was considered. The similarity in the plastic response of two traits predicted their integration across environments, with integrated traits having more similar plasticity. Such variation in the plasticity of traits partly explained the lower phenotypic integration found in the stressful environment. We found no evidence that integration may constitute an internal constraint to plasticity. Rather, we present the first empirical demonstration that differences in plastic responses may involve a major reorganization of the relationships among traits, and challenge the notion that stress generally induces a tighter phenotype.

Phylogeography of a gypsum endemic plant across its entire distribution range in the western Mediterranean.

PREMISE: Gypsum soils in the Mediterranean Basin house large numbers of edaphic specialists that are adapted to stressful environments. The evolutionary history and standing genetic variation of these taxa have been influenced by the geological and paleoclimatic complexity of this area and the long-standing effect of human activities. However, little is known about the origin of Mediterranean gypsophiles and the factors affecting their genetic diversity and population structure. METHODS: Using phylogenetic and phylogeographic approaches based on microsatellites and sequence data from nuclear and chloroplast regions, we evaluated the divergence time, genetic diversity, and population structure of 27 different populations of the widespread Iberian gypsophile Lepidium subulatum throughout its entire geographic range. RESULTS: Lepidium subulatum diverged from its nearest relatives ~3 million years ago, and ITS and psbA/matK trees supported the monophyly of the species. These results suggest that both geological and climatic changes in the region around the Plio-Pleistocene promoted its origin, compared to other evolutionary processes. We found high genetic diversity in both nuclear and chloroplast markers, but a greater population structure in the chloroplast data. These results suggest that while seed dispersal is limited, pollen flow may be favored by the presence of numerous habitat patches that enhance the movement of pollinators. CONCLUSIONS: Despite being an edaphic endemic, L. subulatum possesses high genetic diversity probably related to its relatively old age and high population sizes across its range. Our study highlights the value of using different markers to fully understand the phylogeographic history of plant species.

Demographic effects of interacting species: exploring stable coexistence under increased climatic variability in a semiarid shrub community.

Population persistence is strongly determined by climatic variability. Changes in the patterns of climatic events linked to global warming may alter population dynamics, but their effects may be strongly modulated by biotic interactions. Plant populations interact with each other in such a way that responses to climate of a single population may impact the dynamics of the whole community. In this study, we assess how climate variability affects persistence and coexistence of two dominant plant species in a semiarid shrub community on gypsum soils. We use 9 years of demographic data to parameterize demographic models and to simulate population dynamics under different climatic and ecological scenarios. We observe that populations of both coexisting species may respond to common climatic fluctuations both similarly and in idiosyncratic ways, depending on the yearly combination of climatic factors. Biotic interactions (both within and among species) modulate some of their vital rates, but their effects on population dynamics highly depend on climatic fluctuations. Our results indicate that increased levels of climatic variability may alter interspecific relationships. These alterations might potentially affect species coexistence, disrupting competitive hierarchies and ultimately leading to abrupt changes in community composition.

Limited effect of a highway barrier on the genetic structure of a gypsum soil specialist.

BACKGROUND: Gypsum ecosystems are edaphic islands surrounded by a matrix that is inhospitable to gypsum soil plant specialists. These naturally fragmented landscapes are currently exacerbated due to man-made disturbances, jeopardising their valuable biodiversity. Concomitant action of other fragmentation drivers such as linear infrastructures may increase the already high threat to these specialists. Although some evidence suggest that gypsophytes are not evolutionary dead-ends and can respond to fragmentation by means of phenotypic plasticity, the simultaneous action of barriers to genetic flow can pose a severe hazard to their viability. Here, we evaluated the effect of a highway with heavy traffic on the genetic flow and diversity in the species Lepidium subulatum, a dominant Iberian shrubby gypsophyte. METHODS: We tested the possible existence of bottlenecks, and estimated the genetic diversity, gene flow and genetic structure in the remnant populations, exploring in detail the effect of a highway as a possible barrier. RESULTS: Results showed variability in genetic diversity, migrants and structure. The highway had a low impact on the species since populations can retain high levels of genetic diversity and genetic parameter, like F ST and F IS, did not seem to be affected. The presence of some level of genetic flow in both sides along the highway could explain the relatively high genetic diversity in the habitat remnants. DISCUSSION: Natural fragmentation and their exacerbation by agriculture and linear infrastructures seem to be negligible for this species and do not limit its viability. The biological features, demographic dynamics and population structures of gypsum species seem to be a valuable, adaptive pre-requisite to be a soil specialist and to maintain its competitiveness with other species in such adverse stressful conditions.

Climate reverses directionality in the richness-abundance relationship across the World's main forest biomes.

More tree species can increase the carbon storage capacity of forests (here referred to as the more species hypothesis) through increased tree productivity and tree abundance resulting from complementarity, but they can also be the consequence of increased tree abundance through increased available energy (more individuals hypothesis). To test these two contrasting hypotheses, we analyse the most plausible pathways in the richness-abundance relationship and its stability along global climatic gradients. We show that positive effect of species richness on tree abundance only prevails in eight of the twenty-three forest regions considered in this study. In the other forest regions, any benefit from having more species is just as likely (9 regions) or even less likely (6 regions) than the effects of having more individuals. We demonstrate that diversity effects prevail in the most productive environments, and abundance effects become dominant towards the most limiting conditions. These findings can contribute to refining cost-effective mitigation strategies based on fostering carbon storage through increased tree diversity. Specifically, in less productive environments, mitigation measures should promote abundance of locally adapted and stress tolerant tree species instead of increasing species richness.

The role of root community attributes in predicting soil fungal and bacterial community patterns.

Roots are assumed to play a major role in structuring soil microbial communities, but most studies exploring the relationships between microbes and plants at the community level have only used aboveground plant distribution as a proxy. However, a decoupling between belowground and aboveground plant components may occur due to differential spreading of plant canopies and root systems. Thus, soil microbe-plant links are not completely understood. Using a combination of DNA metabarcoding and spatially explicit sampling at the plant neighbourhood scale, we assessed the influence of the plant root community on soil bacterial and fungal diversity (species richness, composition and ß-diversity) in a dry Mediterranean scrubland. We found that root composition and biomass, but not richness, predict unique fractions of variation in microbial richness and composition. Moreover, bacterial ß-diversity was related to root ß-diversity, while fungal ß-diversity was related to aboveground plant ß-diversity, suggesting that plants differently influence both microbial groups. Our study highlights the role of plant distribution both belowground and aboveground, soil properties and other spatially structured factors in explaining the heterogeneity in soil microbial diversity. These results also show that incorporating data on both plant community compartments will further our understanding of the relationships between soil microbial and plant communities.