Diagnosis of the ecological condition of the drove road network in the Autonomous Community of Madrid (central Spain)

Context: Drove roads are landscape corridors traditionally used for livestock movement in many regions of the world, including Spain, where they cover about 0.8% of the land. They have ecological importance due to their role in connectivity, seed dispersal, soil preservation, habitat and biodiversity conservation, and the provision of ecosystem services. Drove roads are experiencing deterioration due to the abandonment of extensive grazing and transhumance. Objectives: We aim to characterize the conservation status and main predictors of deterioration of the drove roads in the Community of Madrid, a region in Spain with a high presence of these corridors. Methods: We considered all the network of the region, with the main analyses based on a sample of 160 segments of 200 m-long, which were evaluated using GIS and fieldwork. Results: Nearly one third of the network surface is occupied by crops, communication infrastructure, and urban or industrial surfaces. Natural habitats make up 60% of the network and are affected by soil degradation and grazing abandonment. Landscape matrix was the main predictor of drove road status, with urban and cropland matrices leading to a reduction in spatial integrity and availability for natural habitats. Grazing was most preserved in grassland matrices. Eco-district, drove road width, and distance to city center also had influence on conservation status. Conclusions: Despite their concerning state, the network is restorable in many areas of the region. Restoration should focus on intensified and simplified landscapes, where the network plays a more decisive role, and should consider the reintroduction of livestockOpen Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This work was supported by the European Union Life Program (project LIFE CAÑADAS, LIFE 18 NAT/ES/000930

Edaphic arthropods as indicators of the ecological condition of temperate grassland ecosystems: A systematic review

Temperate grasslands are part of one of the biggest biomes on earth, sustaining high levels of biodiversity and providing multiple ecosystem services. However, the area covered by this open ecosystem is decreasing worldwide, due to several threats like land use change or climate change. Ground-dwelling arthropods are an important group of the community of grassland soil invertebrates, and they play a key role within this ecosystem, while at the same time being sensitive to the changes caused by management practices like grazing, mowing, prescribed fire, etc. Using the Web of Science database, we conducted a systematic review to identify which groups of arthropods are being used as indicators to evaluate the ecological condition of grasslands in temperate regions, and which indices are being measured. As grasslands have been traditionally managed by humans for centuries, their ecological condition is intrinsically linked to the development of different management practices like grazing, mowing or restoration strategies, which usually affect soil and vegetation structure. We found that macro-arthropods were used in a greater number of studies than micro-arthropods (91% vs 15%), and within that size group, beetles were the preferred indicator in most of the temperate grassland types (49% of the studies), followed by spiders and ants. Few studies used grasshoppers to monitor grasslands changes. The indices more frequently assessed were species richness and abundance, and we identified that the response to the different management practices was quite heterogeneous. Restoration and grazing effects were the two factors more frequently evaluated for macro-arthropods, while micro-arthropods (Acari and Collembola) were dominant to assess land use type. Overall, our findings highlight the need to increase the number of studies in some temperate regions, to explore the potential of overlooked groups of arthropods, and to include indices that measure functional diversity or community compositionThis work was financially supported by the European Union Life Program (project LIFE CANADAS, LIFE 18 NAT/ES/000930

Ant Communities Resist Even in Small and Isolated Gypsum Habitat Remnants in a Mediterranean Agroecosystem

Natural and seminatural habitat remnants play a crucial ecological role in intensified agroecosystems. Assumptions on the conservation value of small and poorly connected fragments in a hostile matrix come from generalization obtained from a limited number of taxa, mostly plants, and vertebrates. To date, few studies have analyzed the effect of fragmentation on ant communities in Mediterranean agroecosystems, despite the importance of this group of animals on several key ecosystem functions and services. Here, we analyze the effects of fragment area and connectivity on ant communities in gypsum outcrops in a large cereal agroecosystem of Central Spain. Ant communities were described by their species composition, abundance (total number of occurrences), and number of species, standardized both by area (species density), and abundance (species richness). Observed number of species was relatively high in comparison with other studies in the Mediterranean, and we found no effects of fragment characteristics on species density, species richness and species composition, which implies that even small and isolated patches do have a value for ant conservation. Moreover, total number of occurrences were higher for smaller and more isolated fragments. This finding contrasts with the results reported for other taxa in similar gypsum habitats and suggests that certain ant traits and strategies make them particularly resistant to fragmentation and capable to take advantage of small habitat patches. Given the important ecological role played by ants, we recommend the preservation of these small habitat fragments in the management plans of agroecosystems in these drylands, especially in those cases in which intensification of agricultural practices greatly diminish natural habitat availabilit

Land use change of transhumant drove roads leads to soil quality degradation: a case study in Central Spain

Grassland soils, beyond their role as biodiversity reservoirs, actively contribute to the provision of numerous ecosystem services. In the Iberian Peninsula, drove roads, the traditional routes used for seasonal livestock movements in search of the most productive pastures, play a key role in the preservation of semi-natural grasslands and in the protection of the upper soil horizon. However, the absence of transhumant pastoralism has led to the degradation of these natural corridors, with unexplored consequences in terms of soil quality and functioning. To investigate the relationship between the conservation state of these livestock routes and soil characteristics, which had not been researched to date, we selected thirty sites within the Madrid drove road network in central Spain. We established three categories: (i) reference well-preserved drove roads and two degraded states: (ii) overgrown abandoned and (iii) eroded drove roads and collected soil samples at each state. We determined soil physicochemical variables like the percentage of C, total N and P, available K, pH and electrical conductivity. We also measured soil enzyme activity using fluorometric methods and assessed litter decomposition through the Tea Bag Index experiment. Our findings demonstrated that the preservation state of drove roads had a significant impact on soil fertility. The mean carbon percentage was up to ten times lower in eroded drove roads compared to reference sites, while nitrogen content was four times higher in reference sites, and phosphorus and potassium content were twice as high in reference drove roads compared to eroded sites. Litter decomposition rate was also half in eroded soils compared to reference sites. Although the nutrient content and litter decomposition of overgrown abandoned drove roads did not differ from reference sites, enzyme activity was significantly higher in reference soils compared to both degraded states. Arylsulfatase activity was six times higher in reference plots, which also showed twice as much phosphatase activity and up to four times as much β-xylosidase activity. Our results confirmed our hypothesis that drove roads suffering from erosion have the most degraded soils. Additionally, we found that both the excessive accumulation of biomass due to grazing abandonment and the loss of vegetation cover through erosion contribute to the loss of soil functionality within the Madrid drove road network. The lack of use and subsequent degradation of drove roads compromise both the stability of the soil ecosystem and the availability of nutrients for plants. Given the vast surface area covered by this network of corridors, the reintroduction of transhumant and local extensive grazing can be an important tool to improve soil characteristic

Diversity and mean specific leaf area of Mediterranean woody vegetation changes in response to summer drought across a double stress gradient: The role of phenotypic plasticity

Aim: Many aspects of vegetation response to increased drought remain uncertain but it is expected that phenotypic plasticity may be key to early adaptation of plants to environmental stress. In this work we observe the response of specific leaf area (SLA) of woody shrub vegetation to the summer drought typical of the Mediterranean climate. In addition, to observe the possible interaction between the impact of drought and the environmental characteristics of the ecosystems, communities from different edaphic and structural contexts distributed along the double stress gradient of the Mediterranean mountains (high temperature and low precipitation at low elevation; low temperature and high irradiation at high elevation) have been analysed. Location: Central Mountain range of the Iberian Peninsula. Methods: Along the entire altitudinal gradient, 33 shrub communities belonging to different habitat typologies (shrublands, rocky areas, hedgerows, understorey) were sampled before and after the passage of summer, both in 2017 and 2019. A total of 1724 individuals and 15,516 leaves were collected and measured to estimate the mean values and diversity of SLA of each community. Results: The community-weighted mean and functional divergence have inverse quadratic relationships with the environmental gradient. Shrub communities at both ends of the gradient have low mean SLA values and high functional divergence of this trait. Summer drought implies a generalised decrease in the mean SLA of the communities throughout the gradient, as well as an alteration in functional richness and uniformity. However, the effect of summer drought on the plant community is mediated by the microenvironmental characteristics of its habitat. Conclusions: Drought acclimatisation of shrub communities through phenotypic plasticity leads to rapid changes in their functional leaf structure. In the long term, our results point to an increase in plant conservative strategies, reduced ecosystem productivity, slower nutrient recycling and the reduction of communities of specific habitats as drought increasesAdministrative and financial support was received from the Autonomous Community of Madrid (Project REMEDINAL TECM S2018/EMT-4338) and Sierra de Guadarrama National Park, which provided the permits for the sampling within the park (ref 10/097831.9/18). Alejandro Carrascosa was supported by a grant for the Promotion of Research in UAM Master studies (UAM 2018– 2019), and Mariola Silvestre by an FPI grant from MINEC

Role of floral strips and semi-natural habitats as enhancers of wild bee functional diversity in intensive agricultural landscapes

Los autores de la UAM pertenecen al Terrestrial Ecology Group, Department of EcologyInstalling patches of flowering plants is a commonly used strategy to enhance refuge and food resources for pollinators in intensive agricultural landscapes. Here, we evaluated how floral strips and semi-natural habitats impact the taxonomic and functional diversity of wild bees in intensively farmed sunflower fields. Pan traps were used to assess bee richness and functional diversity at 22 sampling sites (11 sites were positioned in sunflower fields with floral strips, and 11 control sites were adjacent to semi-natural habitats). Five sampling levels were established in each field, positioned at different distances from the flower strip or semi-natural habitat. Wild bee species richness and functional richness were significantly higher inside floral strips and semi-natural habitats compared to sunflower fields. Functional redundancy was significantly higher inside agricultural fields compared to inside floral strips and semi-natural habitats. Sunflower fields with floral strips had lower Rao values compared to sunflower fields adjacent to semi-natural habitats. The community-weighted mean (CWM) of intertegular distance (distance between where wings attach to body) of wild bees was significantly higher in sunflower fields adjacent to semi-natural habitats. In comparison, the CWM of wing length varied across sampling levels in sunflower fields with semi-natural habitats. Our results show it is essential to have semi-natural habitats within intensive agricultural landscapes to ensure the conservation of wild bee diversity, while the installation of floral strips offers a partial substitute to enhance wild bee diversity when semi-natural habitats are scarce or absentFinancial support was provided by the European Union FEDER INTERREG SUDOE Program (SOE1/P5/E0129). CPC was supported by the Estonian Ministry of Education and Research (PSG293) and the European Regional Development Fund (Centre of Excellence EcolChange

A new host for a new Rossomyrmex minuchae population

Social parasites usually rely on chemical cues (cuticular hydrocarbons) to successfully invade and coexist with their hosts. Most ants that are obligate social parasites (slave-makers) can parasitize several related host species with different levels of chemical similarity although there are few exceptions where there is only a single host species. An example of the latter is Rossomyrmex minuchae, which was known to be only associated with Proformica longiseta. However, a recent discovery of a new R. minuchae population revealed that it can parasitize P. nasuta, a species with a separate distribution to P. longiseta. Chemical analyses of cuticular hydrocarbons show local adaptation of the parasite to its host in this new population, being more similar to P. nasuta than to other R. minuchae populations. In addition, genetic analyses evidence differences from the other known populations, from which it split 1.21 Mya during glacial and interglacial periods of the Pleistocene and remained separated to the present day. This historical genetic isolation and the chemical differences found between parasite populations may evidence a speciation process and support the local host–parasite coevolutionM Silvestre and FM Azcárate received administrative and fnancial support from the Spanish Ministry of Economy and Competitiveness (Project CGL2014-53789-R). Sierra de Guadarrama National Park provided the permits for the sampling (ref 10/101642.9/16). This work was also partially funded by the University of Jaén through the “Plan Operativo de Apoyo a la Investigación 2021-2022

Patient-Level, Institutional, and Temporal Variations in Use of Imaging Modalities to Confirm Pulmonary Embolism

International audienceBackground: The choice of the imaging modality for diagnosis of pulmonary embolism (PE) could be influenced by provider, patient or hospital characteristics, or over time. However, little is known about the choice of the diagnostic modalities in practice. The aim of this study was to evaluate the variations in the use of imaging modalities for patients with acute PE. Methods: Using the data from Registro Informatizado Enfermedad TromboEmbolica (RIETE), a prospective international registry of patients with venous thromboembolism (March 2001–January 2019), we explored the imaging modalities used in patients with acute PE. The imaging modalities included computed tomography pulmonary angiography, ventilation/perfusion scanning, pulmonary angiography, a combination of these tests, or PE signs and symptoms plus imaging-confirmed proximal deep vein thrombosis but no chest imaging. Results: Among 38 025 patients with confirmed PE (53.1% female, age: 67.3±17 years), computed tomography pulmonary angiography was the dominant modality of diagnosis in all RIETE enrollees (78.2% [99% CI, 77.6–78.7]); including pregnant patients (58.9% [99% CI, 47.7%–69.4%]) and patients with severe renal insufficiency (62.5% [99% CI, 59.9–65.0]). A greater proportion of patients underwent ventilation/perfusion scanning in larger hospitals compared with smaller hospitals (13.1% versus 7.3%, P <0.001). The use of computed tomography pulmonary angiography varied between 13.3% and 98.3% across the countries, and its use increased over time (46.5% in 2002 to 91.7% in 2018, P <0.001). Conclusions: In a large multinational PE registry, variations were observed in the use of imaging modalities according to patient or institutional factors and over time. However, computed tomography pulmonary angiography was the dominant modality of diagnosis, even in pregnancy and severe renal insufficiency. The safety, costs, and downstream effects of these tests on PE-related and non-PE-related outcomes warrant further investigation

Heart Rate and Mortality in Patients With Acute Symptomatic Pulmonary Embolism

International audienc