TY - GEN A1 - Garcia de la Riva, Enrique A1 - Arenas, Maribel A1 - Villar, Rafael A1 - Garcia-Oliva, Felipe A1 - Oyama, Ken T1 - El papel de la evapotranspiración en la distribución funcional foliar de 28 especies del género Quercus de España y México T2 - Ecosistemas N2 - El género Quercus constituye el grupo de especies leñosas más importante del hemisferio norte, con una amplia distribución tanto en España como en México. El estudio de sus rasgos funcionales nos permite conocer su grado de diversificación y su adaptación al medio, así como las limitaciones morfológicas y fisiológicas que restringen su evolución. El principal objetivo del presente estudio es comprender como se segregan los rasgos funcionales foliares dentro del género Quercus, y que factores determinan dicha segregación. Para ello hemos medido cinco rasgos foliares en un total de 28 especies del generó Quercus de España y México a lo largo de un gradiente de evapotranspiración potencial. Nuestros resultados muestran dos dimensiones independientes de variación funcional foliar: por un lado, las especies se distribuyen de acuerdo con el espectro de economía foliar a lo largo del gradiente de humedad edáfica, encontrándose las especies más conservativas en el uso de recursos en regiones con mayor evapotranspiración potencial y las especies más adquisitivas en zonas con menor evapotranspiración. Por otro lado, el tamaño foliar esta principalmente condicionado por el origen geográfico de las especies. Estos resultados sugieren que las variaciones evolutivas dentro de un mismo linaje están asociadas a la variación coordinada de sus rasgos, siendo la humedad un factor clave en la variación funcional del género Quercus. Además, destacar que no se aprecia relación entre la longevidad foliar y el espectro de economía foliar, lo cual podría deberse a que la historia evolutiva del hábito foliar en los robles de ambos países ha sido diferente. KW - área específica foliar KW - rasgos funcionales KW - robles KW - espectro de economía foliar Y1 - 2019 UR - https://www.revistaecosistemas.net/index.php/ecosistemas/article/view/1803 SN - 1697-2473 VL - 28 IS - 3 SP - 199 EP - 207 ER - TY - GEN A1 - Arenas-Navarro, Maribel A1 - Oyama, Ken A1 - García-Oliva, Felipe A1 - Torres-Miranda, Andrés A1 - Garcia de la Riva, Enrique A1 - Terrazas, Teresa T1 - The role of wood anatomical traits in the coexistence of oak species along an environmental gradient T2 - AoB PLANTS N2 - Oaks (Quercus) are a dominant woody plant genus in the northern hemisphere, which occupy a wide range of habitats and are ecologically diverse. We analysed the wood anatomical traits, the variables derived and the relative hydraulic conductivity of 21 oak species to identify their performance according to abiotic factors, leaf phenological patterns and phylogenetic restrictions by analysing the interspecific variation along an environmental gradient. First, we determine the causes of anatomical trait variation in the oaks, analysing the functional trade-offs related to distribution along the environmental gradient. We measure the phenotypic plasticity of the anatomical traits to determine the role of environment and geographic distance in the range of phenotypic plasticity. Second, we examined if oaks co-occurred along the environmental gradient. Then we analysed if wood anatomical traits reflect differences among their phylogenetic section, leaf habit and a phylogenetic section/leaf habit category. Last, we tested the phylogenetic signal. Our results showed that vessel diameter, vessel frequency, wood density and relative hydraulic conductivity are the main axes of trait variation in the species analysed among leaf habit categories. The aridity index and seasonal precipitation drive the variation in the analysed traits. Higher environmental distance resulted in a higher relative distance plasticity index among traits. Co-occurrence of oak species with different leaf habits and phylogenetic trajectories may promote complementary resource acquisition. The phylogenetic signal in the oak species studied was low, which implies labile wood traits. KW - Aridity index KW - fibre traits KW - phenotypic plasticity KW - Quercus KW - relative hydraulic conductivity Y1 - 2021 U6 - https://doi.org/10.1093/aobpla/plab066 SN - 2041-2851 VL - 13 IS - 6 ER - TY - GEN A1 - Garcia de la Riva, Enrique A1 - Ignacio Querejeta, José A1 - Villar, Rafael A1 - Pérez-Ramos, Ignacio Manuel A1 - Marañón, Teodoro A1 - Galán Díaz, Javier A1 - Tomás Marín, Sergio de A1 - Prieto, Iván T1 - The Economics Spectrum Drives Root Trait Strategies in Mediterranean Vegetation T2 - Frontiers in Plant Science N2 - Extensive research efforts are devoted to understand fine root trait variation and to confirm the existence of a belowground root economics spectrum (RES) from acquisitive to conservative root strategies that is analogous to the leaf economics spectrum (LES). The economics spectrum implies a trade-off between maximizing resource acquisition and productivity or maximizing resource conservation and longevity; however, this theoretical framework still remains controversial for roots. We compiled a database of 320 Mediterranean woody and herbaceous species to critically assess if the classic economics spectrum theory can be broadly extended to roots. Fine roots displayed a wide diversity of forms and properties in Mediterranean vegetation, resulting in a multidimensional trait space. The main trend of variation in this multidimensional root space is analogous to the main axis of LES, while the second trend of variation is partially determined by an anatomical trade-off between tissue density and diameter. Specific root area (SRA) is the main trait explaining species distribution along the RES, regardless of the selected traits. We advocate for the need to unify and standardize the criteria and approaches used within the economics framework between leaves and roots, for the sake of theoretical consistency. KW - ecophysiology KW - ine root strategies KW - non-mass normalized traits KW - root anatomy KW - root economic spectrum KW - specific root area KW - specific root length Y1 - 2021 U6 - https://doi.org/10.3389/fpls.2021.773118 IS - 12 ER - TY - GEN A1 - De Tomás Marin, Sergio A1 - Galán Díaz, Javier A1 - Rodriguez-Calcerrada, Jesus A1 - Prieto, Ivan A1 - Garcia de la Riva, Enrique T1 - Linking functional composition moments of the sub-Mediterranean ecotone with environmental drivers T2 - Frontiers in Plant Science Y1 - 2023 U6 - https://doi.org/10.3389/fpls.2023.1303022 SN - 1664-462X VL - 14 ER - TY - GEN A1 - De Tomás Marín, Sergio A1 - Rodríguez-Calcerrada, Jesús A1 - Arenas-Castro, Salvador A1 - Prieto, Iván A1 - González, Guillermo A1 - Gil, Luis A1 - Garcia de la Riva, Enrique T1 - Fagus sylvatica and Quercus pyrenaica: Two neighbors with few things in common T2 - Forest Ecosystems KW - Environmental niche KW - European beech KW - Forest dynamics KW - Functional niche KW - Hypervolume KW - Pyrenean oak KW - Species coexistence KW - Sub-Mediterranean community Y1 - 2023 U6 - https://doi.org/10.1016/j.fecs.2023.100097 SN - 2197-5620 VL - 10 ER - TY - GEN A1 - Garcia de la Riva, Enrique A1 - Villar, Rafael A1 - Pérez-Ramos, Ignacio Manuel A1 - Quero, José Luis A1 - Matías, Luis A1 - Poorte, Lourens A1 - Marañón, Teodoro T1 - Relationships between leaf mass per area and nutrient concentrations in 98 Mediterranean woody species are determined by phylogeny, habitat and leaf habit T2 - Trees : Structure and Function N2 - Leaf structural and nutrient traits are key attributes of plant ecological strategies, as these traits are related to resource-use strategies and plant growth. However, leaf structure and nutrient composition can vary among different habitats, leaf habits or phylogenetic groups. In this study, we measured 13 leaf traits (one structural—leaf mass per area, LMA—and 12 nutrient traits) in 98 Mediterranean woody species growing over a wide range of environmental conditions, with the final aim of discerning the main causes of leaf trait variability. The variance decomposition results show that phylogeny, leaf habit and habitat type affected in several ways the structural and nutrient traits studied. Leaf nutrient concentrations are strongly positively correlated amongst themselves, and negatively correlated with LMA, in accordance with the “leaf economics spectrum”. We found that leaf habit and phylogeny were important causes of variation in LMA and in a broad number of leaf nutrients (i.e., C, N, Mg, S, K), while other micronutrients seemed to be more dependent on the environment (i.e., Cu and Mn). In summary, our study reinforces the existence of the leaf economics spectrum in a broad pool of Mediterranean woody species, and demonstrates the strong influence of phylogeny, leaf habit and environmental context as the main drivers of variability in some leaf structural and nutrient traits. KW - Functional traits Leaf economics spectrum Nitrogen Phosphorus Phylogenetic independent contrast (PIC) Stoichiometry KW - Leaf economics spectrum KW - Nitrogen KW - Phosphorus KW - Phylogenetic independent contrast (PIC) KW - Stoichiometry Y1 - 2018 UR - http://hdl.handle.net/10261/158175 U6 - https://doi.org/10.1007/s00468-017-1646-z SN - 1432-2285 VL - 32 IS - 2 SP - 497 EP - 510 ER - TY - GEN A1 - Garcia de la Riva, Enrique A1 - Marañón, Teodoro A1 - Pérez-Ramos, Ignacio Manuel A1 - Navarro-Fernández, Carmen M. A1 - Olmo, Manuel A1 - Villar, Rafael T1 - Root traits across environmental gradients in Mediterraneanwoody communities: are they aligned along the root economicsspectrum? T2 - Plant and Soil N2 - Background and aimsRoot traits play a critical role inplant resource-use strategies and ecosystem functioning,but there is great controversy regarding their identityand functionality in different dimensions of below-ground functional variation. Here, we explored the levelof covariation among a suite of key root traits (i.e.specific root length, root dry matter content, diameterand density) as well as between them and two above-ground traits related with plant function (leaf nutrientconcentration and specific leaf area). We also evaluatedwhether these patterns of trait covariation were consis-tent at different spatial scales and organisational levels.MethodsWe collected fine root (< 2 mm) samples of 534individuals (of 80 woody species) along a wide regionalrange of environmental conditions in southern Spain. KW - Growth rate KW - LMA KW - Nutrients KW - Root diameter KW - Root tissue density KW - SLA KW - Specific root length KW - Water availability Y1 - 2018 U6 - https://doi.org/10.1007/s11104-017-3433-4 SN - 0032-079X IS - 424 SP - 35 EP - 48 ER - TY - CHAP A1 - Marañón, Teodoro A1 - Pérez-Ramos, Ignacio Manuel A1 - Villar, Rafael A1 - Acácio, Vanda A1 - Aranda, Ismael A1 - Camarero, Jesús Julio A1 - Garcia de la Riva, Enrique A1 - Domínguez, María Teresa ED - Steffensen, Bent J. T1 - Iberian oaks coping with global change: Ecological processes and management strategies T2 - Quercus: Classification, Ecology and Uses N2 - Iberian oak forests and woodlands are vital providing a variety of ecosystem services. They provide raw materials like cork, wood and fuel, and fodder (acorns) for wild and domestic animals. Oak trees provide a climate regulating service by their capacity to sequester carbon and therefore to mitigate the effects of climatic change. There is an increasing demand for cultural services provided by oak woodlands, mainly for recreation and ecotourism. However, some global-change drivers are negatively affecting oak forests, therefore diminishing their ecosystem services and in consequence undermining human well-being. The main drivers affecting Iberian oaks are: land use changes, introduction of exotic pathogens, air and soil pollution deteriorating oak health, and climatic change, in particular the combined reduction of rainfall and the rise in temperature. In this chapter we focus on the ecology of Iberian oaks and how they are affected by global change. Firstly, we introduce a literature overview of the research conducted on Quercus, analysed by species, countries and topics. Secondly, we review the main biological processes related with the oak responses to global change: i) genetic diversity, climatic refuges and adaptation to climatic change; ii) ecophysiological responses to stress and disturbance, functional diversity, growth patterns, and scaling up from leaf to ecosystem; iii) demographic responses, causes of regeneration failures, spatial patterns of recruitment, drivers of decline and dieback. Thirdly, we review the management strategies in three case studies: the agro-silvo-pastoral systems (dehesas and montados), the cork oak woodlands, and the afforestation of a polluted-land for phytostabilization of contaminants. KW - climate change KW - Dehesas KW - Ecosystem services Y1 - 2020 SN - 978-1-53618-026-8 SP - 1 EP - 84 PB - New York CY - Nova Science Publishers ER - TY - GEN A1 - Galán Díaz, Javier A1 - Garcia de la Riva, Enrique A1 - Parker, Ingrid M. A1 - Leiva, María José A1 - Bernardo-Madrid, Rubén A1 - Vilà, Montserrat T1 - Plant Community Assembly in Invaded Recipient Californian Grasslands and Putative Donor Grasslands in Spain T2 - Diversity N2 - The introduction of exotic species to new regions offers opportunities to test fundamental questions in ecology, such as the context-dependency of community structure and assembly. Annual grasslands provide a model system of a major unidirectional introduction of plant species from Europe to North America. We compared the community structure of grasslands in two Mediterranean regions by surveying plots in Spain and in California with similar environmental and management conditions. All species found in Spanish grasslands were native to Spain, and over half of them (74 of 139 species) are known to have colonized California. In contrast, in California, over half of the species (52 of 95 species) were exotic species, all of them native to Spain. Nineteen species were found in multiple plots in both regions (i.e., shared species). The abundance of shared species in California was either similar to (13 species) or greater than (6 species) in Spain. In California, plants considered pests were more likely than non-pest species to have higher abundance. Co-occurring shared species tended to maintain their relative abundance in native and introduced communities, which indicates that pools of exotic species might assemble similarly at home and away. These findings provide interesting insights into community assembly in novel ecosystems. They also highlight an example of startling global and local floristic homogenization. KW - biogeographical comparisons KW - community similarity KW - exotic plants KW - Mediterranean grasslands KW - pests KW - plant invasions KW - species abundance Y1 - 2020 U6 - https://doi.org/10.3390/d12050193 SN - 1424-2818 VL - 12 IS - 5 ER - TY - GEN A1 - Garcia de la Riva, Enrique A1 - Prieto, Iván A1 - Marañón, Teodoro A1 - Pérez-Ramos, Ignacio Manuel A1 - Olmo, Manuel A1 - Villar, Rafael T1 - Root economics spectrum and construction costs in Mediterranean woody plants: the role of symbiotic associations and the environment T2 - Journal of Ecology N2 - 1. Many studies have quantified the functional variation of fine root traits to un-derstand the overarching trade-off between maximizing resource acquisition or conservation (root economics spectrum [RES]). However, we know remarkably less on how plant strategies along the RES are actually constrained by the amount of photosynthates required to construct roots (i.e. construction costs, CC) or how below- ground interactions with symbiotic organisms modify root trait patterns and their relationships with CC.2. Our main aim was to quantify CC of fine roots (<2 mm) and their underlying compo-nents (carbon, minerals and organic nitrogen concentrations) in 60 Mediterranean woody species with contrasting symbiotic association types (ectomycorrhizas, ar-buscular and ericoid mycorrhizas and N-fixing bacteria). We examined (a) whether the covariation among fine root traits along the RES was related to the intrinsic cost of producing roots and whether this relationship was dependent on the type of root symbiosis; (b) whether the relationship of each CC component with the RES was dependent on the type of root symbiosis and (c) whether soil water and nutrient availability determined differences in CC across sites.3. According to the RES hypothesis, fine root traits showed a main covariation trend (acquisition vs. conservation), defined by the first PCA axis, which also segregated species by their two main contrasting symbiotic types (arbuscular and ectomycor-rhizal). We found a positive relationship between root CC and the RES (i.e. PCA axis 1) and, interestingly, slopes differed among symbiotic types, in response to the different role of each specific CC component. In addition, independently of symbiotic type, root CC decreased linearly with soil nutrient availability and quad-ratically with plant water availability.4. Synthesis. Our study demonstrates that woody plants display different functional strategies in their root CC, related with their position on the RES, and that CC differ among symbiotic groups. The influence of the root CC components across species varied among symbiotic associations, pointing to a trade-off between structural and metabolic compounds. Root CC were also strongly modulated by soil resource availability (nutrients and water). This study highlights that root CC are fundamental to better understand below- ground resource-use strategies. KW - below-ground strategies KW - functional traits KW - mycorrhiza KW - resource gradient KW - rhizobium KW - root carbon KW - soil nutrient KW - specific root length Y1 - 2021 U6 - https://doi.org/10.1111/1365-2745.13612 SN - 1365-2745 VL - 109 IS - 4 SP - 1873 EP - 1885 ER -