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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Estrutura funcional das assembleias de peixes: padrões de diversidade processos ecológicos e conservação em ecossistemas aquáticos tropicais / Functional structure of fish assemblages: diversity patterns, ecological processes and conservation in tropical aquatic ecosystems

Carvalho, Rodrigo Assis de 25 March 2014 (has links)
Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2014-11-11T12:27:31Z No. of bitstreams: 2 Tese Rodrigo Assis de Carvalho -2014.pdf: 3328420 bytes, checksum: a1e02cfe43c98e24427c7466b7570d2d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-11-18T15:43:43Z (GMT) No. of bitstreams: 2 Tese Rodrigo Assis de Carvalho -2014.pdf: 3328420 bytes, checksum: a1e02cfe43c98e24427c7466b7570d2d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-11-18T15:43:43Z (GMT). No. of bitstreams: 2 Tese Rodrigo Assis de Carvalho -2014.pdf: 3328420 bytes, checksum: a1e02cfe43c98e24427c7466b7570d2d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2014-03-25 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Species richness became a classical descriptor of biological communities, however, this concept does not encompass functional differences among species which may be linked to the functioning and the maintenance of ecosystem processes. For example, species with similar ecological traits should play similar ecological functions while species with distinct traits should play different functions. Understanding functional patterns of communities and how ecological processes act on their structuring is a challenge to ecologists, mainly in environments poorly known as tropical freshwater systems. In this context, the main goals of this thesis are to: i) test if the functional structure of headwater fish assemblages are influenced by drainage area and/or environmental components of basins; ii) comprehend the functional structure of river and headwater stream fish assemblages and evaluate the role of environment and spatial components on this structure; iii) test if functional diversity and species diversity patterns, besides spatial priorities for their conservation, are spatially congruent. The first objective was evaluated with a set of 25 headwater streams distributed in the Araguaia (13) and Tocantins (12) River basins. We tested for (dis)similarities among Araguaia and Tocantins fish assemblages with an analysis of similarities (ANOSIM), and we evaluated the role of space and environment on fish assemblages functional structure with RLQ and Fourthcorner analyses. We found a functional dissimilarity between fish assemblages of Araguaia and Tocantins (R = 0.09, p = 0.03) and RLQ was significant for trait/environment relationships (p = 0.005), although spatially structured environment also seems to be relevant. Altitude, channel depth, water temperature, turbidity and conductivity are environmental variables that influenced: body mass, water column position, substrate preference, parental care, foraging location and migratory habits. In this ways, fish assemblages' functional structure of Araguaia and Tocantins River basins are delimited is influenced by both space and local conditions of the environment. For evaluating the second objective, we calculate the net relatedness index (NRI) of 22 rivers and 27 headwater stream of Tocantins-Araguaia basin and related them with environmental variables of each watercourse. We used a variation partitioning for understanding how much of NRI variation could be explained by environment and/or space. The spatial pattern of NRI indicated that fish assemblages from headwater streams tend to be functionally clustered and from rivers overdispersed, and their separation is associated with four environmental variables: depth, width, water velocity and dissolved oxygen. However, variation partitioning indicated a lower influence of the environment on NRI variation when compared with the spatial components. Therefore, the functional structure of rivers and headwater streams is associated with neutral processes such as the dispersal limits of each species through the space. We evaluated the third objective using 21 units formed by the combination of one river and one headwater stream. Utilizing null models, we verified if units with higher species richness also have higher functional diversity. We created conservation scenarios for species richness and functional diversity with an algorithm of complementarity. No unit had higher functional diversity than expected by it species richness, which might indicate the possibility of developing a single conservation strategy for them. However, the congruence between conservation scenarios for species richness and functional diversity seems to be the result of the algorithm used that selects areas harboring species with restricted spatial occurrence, independently of other criteria used. / A riqueza de espécies é um descritor clássico das comunidades biológicas, porém, seu conceito não engloba as diferenças ecológicas entre as espécies que podem estar ligadas à manutenção de processos ecossistêmicos. Por exemplo, espécies com características ecológicas semelhantes devem desempenhar funções ecológicas similares enquanto as de características distintas desempenhariam funções diferentes. Entender os padrões funcionais das comunidades e os processos que atuam sobre a sua estruturação é um desafio para os ecólogos, principalmente em ambientes pouco conhecidos como os de água doce tropicais. Dentro deste contexto, os objetivos desta tese são: i) testar se a estrutura funcional das assembleias de peixes de riachos pode ser influenciada pelos limites da área de drenagem e/ou pelos componentes ambientais das bacias hidrográficas; ii) compreender a estruturação funcional das assembleias de peixes em rios e riachos de cabeceira e avaliar o papel do ambiente e do espaço sobre esta estruturação; iii) testar se os padrões de diversidade funcional e de riqueza de espécies das assembleias de peixes, além das prioridades espaciais para sua conservação, são congruentes espacialmente. O primeiro objetivo foi testado com um conjunto de 25 riachos distribuídos nas bacias hidrográficas dos Rios Araguaia (13) e Tocantins (12). Testamos as (dis)similaridades entre as assembleias de peixes do Araguaia e Tocantins com uma análise de similaridades (ANOSIM), e avaliamos o papel do espaço e do ambiente sobre a sua estrutura funcional com análises de RLQ e Fourthcorner. Encontramos uma dissimilaridade funcional entre as assembleias do Araguaia e Tocantins (R = 0.09, p = 0.03) e a RLQ foi significativa para as associações entre atributos/ambiente (p = 0.005), embora o ambiente espacialmente estruturado também pareça ser relevante. Altitude, profundidade do canal, temperatura da água, turbidez e condutividade são as variáveis do ambiente que influenciam: massa corporal, posição na coluna d'água, preferência pelo substrato, cuidado parental, local de forrageio e migração. Desta forma, a estrutura funcional das assembleias de peixes das bacias dos Rios Araguaia e Tocantins é influenciada tanto pelo espaço quanto pelas condições locais do ambiente. Para avaliar o segundo objetivo, calculamos os índices de parentesco líquido (NRI) de 22 rios e 27 riachos de cabeceira da bacia Tocantins-Araguaia e os relacionamos com as variáveis ambientais de cada curso d'água. Utilizamos ainda uma partição de variância para compreender o quanto da variação do NRI é explicada pelo ambiente e/ou pelo espaço. O padrão espacial do NRI indicou que as assembleias dos riachos de cabeceira tendem a ser funcionalmente agrupadas e as de rios sobredispersas, e a sua separação está associada a quatro variáveis ambientais: profundidade, largura, velocidade e oxigênio dissolvido. Porém, a partição de variância indicou um papel menor do componente ambiental na variação do NRI em relação aos componentes associados ao espaço. Portanto, a estruturação funcional de riachos e rios está associada a processos neutros, como os limites de dispersão intrínsecos de cada espécie. Avaliamos o terceiro objetivo utilizando 21 unidades formadas por: um rio e um riacho de cabeceira. Por meio de modelos nulos, verificamos se as unidades com maior riqueza de espécies possuíam maior diversidade funcional do que o esperado ao acaso. Criamos ainda cenários de conservação para riqueza de espécies e diversidade funcional com um algoritmo de complementaridade. Nenhuma unidade apresentou maior diversidade funcional do que o esperado pela riqueza de espécies, o que pode indicar a possibilidade de desenvolver uma única estratégia de conservação para ambos. Entretanto, a congruência entre os cenários para a riqueza de espécies e diversidade funcional parece ser resultado do algoritmo utilizado, selecionando áreas com espécies de ocorrência restrita, independente dos demais critérios utilizados.
12

Variation of Functional Traits Across Space and Time: Assessing the Roles of Succession and Temperature on Plant and Microbial Functional Traits to Understand Biodiversity Gradients

Buzzard, Vanessa, Buzzard, Vanessa January 2017 (has links)
Traditionally, the study of biodiversity has focused on quantifying patterns of species diversity, or species richness, by simply counting the number of species across environmental gradients. This approach has been fundamental to ecological investigations and thinking with regards to identifying patterns of biodiversity. Although species diversity is the most commonly used dimension of biodiversity, species diversity alone does not provide a mechanistic understanding of biodiversity gradients. By also quantifying the genetic and phylogenetic diversity of a population, community or ecosystem, ecologists can become more informed on the relationships organisms have with one another, as well as their potential to adapt to changes in their environment. While each of these approaches provides methods for characterizing biodiversity, they do not offer direct insight into what species do, how they function, or how they will respond to changes in their environment. Functional, or trait-based ecology, provides an informative alternative to species-centric approaches that seeks to understand patterns of biodiversity in terms of functional traits. Functional traits capture fundamental tradeoffs in life history strategies that can be used to determine species ecological roles and can be used to scale from organisms to ecosystems to ask broad ecological questions. The overarching goal of my dissertation is to add additional links to trait-based ecology by identifying potential sources of trait variation across different spatial and temporal gradients between varying levels of biological organization. By assessing variation across spatial-temporal scales, I tested two prominent assumptions of trait-based ecology. First, I tested the trait-environment assumption wherein traits affect ecosystem processes. Therefore, there should be a predictable relationship between traits, their environment, and ecosystem function across large ecological gradients and between broad taxonomic groups. Second, I tested the assumption that interspecific trait variation exceeds intraspecific trait variation; thus, the species mean trait value captures much of the variation for a given trait. My study systems include the latitudinal diversity gradient of North America, forests of varying successional age in the tropical dry forests of Costa Rica, and a subalpine meadow of Colorado. First, we collected leaf trait data and soil microbial data at six sites across the latitudinal diversity gradient to test a central hypothesis of trait-based ecology, primarily that shifts in plant traits associated with decomposition and nutrient availability ramify to influence microbial functioning. We found that changes in plant traits not only reflect nutrient limitation across broad ecological gradients, but also have important regional effects on biogeochemical processes, microclimates, and energy fluxes that influence microbial diversity. Furthermore, changes in plant function correspond to changes in bacterial functional traits related to carbon, nitrogen, and phosphorus cycling, although only fungal functional traits related to nitrogen cycling change across the gradient. Our results represent one of the first comparisons of functional diversity within and across bacterial, fungal, and plant communities across a latitudinal gradient. Next, we collected leaf functional trait and abiotic data across a 110-year chronosequence within a tropical dry forest in Costa Rica. We focused on six leaf functional traits for woody plants within 14 plots that have varying times since disturbance in the tropical dry forests of Guanacaste, Costa Rica. When we compare species composition and community function, we find that older tropical dry forest communities differ significantly from younger forests in species composition, above ground biomass, and functional traits. Species in younger forests have traits better adapted to hotter temperatures and increased drought. For example, young forests are characterized by thicker leaves with higher water use efficiency. In contrast, older forests have thinner broader leaves more susceptible to desiccation. Interestingly, in contrast to expectations, variation in these functional traits does not generally change through succession. This means that the different species within each community are converging on similar functional strategies. Our results also suggest that regenerating tropical dry forests are resilient and can be restored within a human lifetime. Finally, we evaluated patterns of trait variation within and between three years to understand the widely-ignored source of temporal variation associated with seasonality and test the assumption that interspecific trait variation exceeds intraspecific variation and the species means account for the overall variation of a trait. To do this, we collected leaf data from eight species at a local site in Colorado throughout the growing season, over three years, as well as extracted data from a global database and made comparisons to assess sources trait variation. We found that, although the timing of collection influences one’s ability to capture fine-scale processes occurring on short time scales, collecting data locally throughout the growing season and across multiple years does not significantly influence species ranking. However, species ranking is not conserved for comparisons between local and global databases. This suggests that extra care should be taken when applying global data for species-specific studies and that ‘snap-shot’ sampling designs may over- or underestimate community trait distributions, reducing predictability. Overall, this body of work extends beyond understanding patterns of species diversity through the inclusion of species function. It contributes to our understanding of variation in biodiversity across broad ecological gradients and between diverse taxonomic groups, how communities assemble via functional traits, and the importance of temporal variation on functional traits for detecting fine-scale patterns.
13

Physico-chemical functioning and development of phytoplankton in Karaoun reservoir (Lebanon) : application of a hydrodynamic-ecological model / Fonctionnement physico-chimique et développement du phytoplancton dans la réservoir de Karaoun (Liban) : application d’un modèle couplé hydrodynamique-écologique

Fadel, Ali 22 September 2014 (has links)
Quarante pour cent des réservoirs du monde souffrent d'eutrophisation. Ce problème mondial augmente la biomasse de phytoplancton dans les réservoirs et perturbé leurs utilisations. Comprendre les mécanismes et les processus qui contrôlent la prolifération de cyanobactéries sont de grande préoccupation. Les modèles d'écosystèmes nous permettent de simuler, d'analyser et de comprendre les processus écologiques dans les lacs et les réservoirs. La communauté de phytoplancton et de l'application du modèle écologique sont mal documentées dans le Moyen-Orient. Karaoun réservoir, le plus grand plan d'eau au Liban, a été construit pour l'irrigation et la production hydroélectrique. Il ya un grand intérêt dans la qualité de ce réservoir d'eau car il sera utilisé pour alimenter la capitale Beyrouth avec de l'eau potable. Les objectifs de la thèse sont de concevoir et mettre en œuvre des campagnes de terrain pour suivre et comprendre la dynamique du phytoplancton et des cyanobactéries dans le lac de barrage de Karaoun, de modéliser le fonctionnement physique et biogéochimique de cette retenue. Des campagnes d'échantillonnage ont été effectuées deux fois par mois entre mai 2012 et Août 2013 pour évaluer l'état trophique et la diversité biologique et la dynamique de la communauté de phytoplancton en réponse aux changements des conditions environnementales. Ces mesures de campagne ont été ensuite utilisées pour calibrer et valider un modèle hydrodynamique-écologique unidimensionnel sur Karaoun réservoir. Nos résultats ont montré que : la retenue de Karaoun, fortement stratifiée thermiquement entre mai et août, est eutrophe, et présente une faible biodiversité. Seulement 30 espèces de phytoplancton ont été recensées en 2012-2013. La stratification thermique qui apparaît au printemps réduit la croissance des diatomées et entraîne leur remplacement par des chlorophycées. Les cyanobactéries dominent en été : Aphanizomenon ovalisporum lorsque la température de surface de l'eau est inférieure à 25 °C, Microcystis aeruginosa lorsqu'elle est supérieure à 25°C. Le dinoflagellé Ceratium hirundinella constitue l'espèce dominante en fin d'automne lorsque la colonne d'eau est mélangée, l'intensité lumineuse est faible et la température de l'eau d'environ 19 °C. Contrairement aux températures de surface élevées, supérieures à 26 °C, auxquelles prolifère A. ovalisporum dans les autres lacs, une prolifération d'A. ovalisporum survient en octobre 2012 dans la retenue de Karaoun, à une température de l'eau de 22 °C et alors que la stratification thermique est faible. La cylindrospermopsine (CYN), une cyanotoxines, a été détectée dans la retenue de Karaoun, même en l'absence d'A. ovalisporum, seule espèce qui la produit identifiée dans la retenue. La CYN atteint une concentration de 1,7 µg/L, supérieure à la valeur guide pour l'eau potable de 1 µg/L (Organisation Mondiale de la Santé). Une configuration simple de Dyresm-Caedym a permis de simuler avec succès la croissance et la succession des cyanobactéries A. ovalisporum et M. aeruginosa. Le modèle réalise de bonnes performances pour la simulation du niveau de l'eau du réservoir (RMSE <1 m pour une variation annuelle de 25 m), des profils de température de la colonne d'eau (RMSE <1 °C pour des variations annuelles comprises entre 13 et 28 °C) et de la biomasse des cyanobactéries (RMSE <48 µg/L équivalent chlorophylle-a, concentration entre 0 et 206 µg/L). A l'échelle locale, cette thèse est importante pour les autorités de gestion des eaux libanaises qui visent à utiliser ce réservoir pour production d'eau potable. Il a également permis de mieux comprendre les processus et les mécanismes qui contrôlent la prolifération de cyanobactéries. L'application de configurations de modèles simples avec procédés principaux pourrait être transposée sur d'autres réservoirs eutrophies / AbstractMany reservoirs throughout the world suffer from eutrophication. This worldwide problem increases phytoplankton biomass in reservoirs and impairs their uses. Understanding the mechanisms and processes that control cyanobacterial blooms are of great concern. Ecosystem models enable us to simulate, analyze and understand ecological processes in lakes and reservoirs. Except for Lake Kinneret, the phytoplankton community and ecological model application are poorly documented in the Middle East. Karaoun Reservoir, the largest water body in Lebanon, was built for irrigation and hydropower production. There is a great interest in the water quality of this reservoir as it will be used to supply the capital Beirut with drinking water. The objectives of this thesis are to: 1) design and implement a physico-chemical and reinforced biological monitoring in Karaoun reservoir, 2) understand the physico-chemical determinants of cyanobacterial blooms in Karaoun reservoir, and 3) calibrate a deterministic model that can be used to predict cyanobacteria biomass. Sampling campaigns were conducted semi-monthly between May 2012 and August 2013 to assess the trophic state and the biodiversity and dynamics of its phytoplankton community in response to changes in environmental conditions. These campaign measurements were then used to calibrate (summer and autumn 2012) and validate (spring and summer 2013) a one dimensional hydrodynamic-ecological model on Karaoun Reservoir. Our results show that : Karaoun Reservoir strongly stratifies between May and August was found eutrophic with low biodiversity, only 30 phytoplankton species in 2012-2013 study period. Thermal stratification established in spring reduced the growth of diatoms and resulted in their replacement by mobile green algae species during high nutrients availability and water temperatures lower than 22 °C. Water temperature higher than 25 °C favours cyanobacterium Microcystis aeruginosa that displaces Aphanizomenon ovalisporum in summer. Dinoflagellate Ceratium hirundinella dominated in mixed conditions, at low light intensity in late autumn at 19 °C. Unlike the high temperatures, above 26 °C, which is associated with blooms of Aphanizomenon ovalisporum in Lakes Kinneret (Israel), Lisimachia and Trichonis (Greece) and Arcos Reservoir (Spain), Aphanizomenon ovalisporum in Karaoun Reservoir bloomed in October 2012 when water temperature was 22°C and the reservoir was weakly stratified. The field growth conditions of Aphanizomenon ovalisporum in this study revealed that it can bloom at subsurface water temperature 22 °C increasing the risk of its development and expansion in European lakes. Cylindrospermopsin, a fatal toxin, was detected in almost all samples even when Aphanizomenon ovalisporum was not detected. It reached a concentration of 1.7 µg/L, higher than the drinking water guideline value of 1 µg/L of the World Health Organization. The toxin vertical profiles suggest its possible degradation or sedimentation resulting in its disappearance from water column. A simple configuration of the one-dimensional hydrodynamic-ecological model Dyresm-Caedym successfully simulated the growth and succession of the cyanobacteria Aphanizomenon ovalisporum and Microcystis aeruginosa. The model showed a good performance in simulating the water level (RMSE < 1 m, annual variation of 25 m), water temperature profiles (RMSE < 1.1 °C, range 13-28 °C) and cyanobacteria biomass (RMSE < 57 µg L-1 equivalent chlorophyll a, range 0-206 µg L-1).On the local scale, this thesis provides important background data for the Lebanese water management authorities who aim to use this reservoir for drinking water production. It also increases the understanding of processes and mechanisms that control cyanobacterial blooms. The application of simple model configurations with few major processes can be transposed on other eutrophic lakes and reservoirs
14

Relationships between Riparian Vegetation, Hydrology, Climate and Disturbance across the Western United States

Hough-Snee, Nathaniel 01 May 2016 (has links)
Flow regime, the magnitude, duration and timing of streamflow, controls the development of floodplain landforms on which riparian vegetation communities assemble. Streamflow scours and deposits sediment, structures floodplain soil moisture dynamics, and transports propagules. Flow regime interacts with environmental gradients like climate, land-use, and biomass-removing disturbance to shape riparian plant distributions across landscapes. These gradients select for groups of riparian plant species with traits that allow them to establish, grow, and reproduce on floodplains – riparian vegetation guilds. Here I ask, what governs the distributions of groups of similar riparian plant species across landscapes? To answer this question, I identify relationships between riparian vegetation guilds and communities and environmental gradients across the American West. In Chapter One, I discuss guild-based classification in the context of community ecology and streams. In Chapter Two, I identified five woody riparian vegetation guilds across the interior Columbia and upper Missouri River Basins, USA, based on species’ traits and morphological attributes. I modeled guild occurrence across environmental gradients, including climate, disturbance, channel form attributes that reflect hydrology, and relationships between guilds. I found guilds’ distributions were related to hydrology, disturbance, and competitive or complementary interactions (niche partitioning) between co-occurring guilds. In Chapter Three, I examine floodplain riparian vegetation across the American West, identifying how hydrology, climate, and floodplain alteration shape riparian vegetation communities and their guilds. I identified eight distinct plant communities ranging from high elevation mixed conifer forests to gallery cottonwood forests to Tamarisk-dominated novel shrublands. I aggregated woody species into four guilds based on their traits and morphological attributes: an evergreen tree guild, a mesoriparian shrub guild, a mesoriparian tree guild, and a drought and hydrologic disturbance tolerant shrub guild. Communities and guilds’ distributions were governed by climate directly, and indirectly as mediated through streamflow. In Chapter Four, I discuss the utility of guild-based assessments of riparian vegetation, current limitations to these approaches, and potential future applications of the riparian vegetation guild concept to floodplain conservation and management. The classification of vegetation into functional trait-based guilds provides a flexible, framework from which to understand riparian biogeography, complementing other models frameworks for riparian vegetation.
15

Relationship between vessel formation and leaf phenology in temperate broad-leaved trees / 温帯広葉樹の道管形成と葉のフェノロジーの関係

Takahashi, Sayaka 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第19027号 / 農博第2105号 / 新制||農||1030(附属図書館) / 学位論文||H27||N4909(農学部図書室) / 31978 / 京都大学大学院農学研究科森林科学専攻 / (主査)教授 大澤 晃, 教授 髙部 圭司, 教授 北島 薫 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
16

Ecological disturbance and restoration effects on plant functional composition and diversity

Glover, Rachael January 2022 (has links)
No description available.
17

Structure fonctionnelle et écohydrologie de parcours méditerranéens établis le long d’un gradient de disponibilité en eau. / Community functional structure and ecohydrology of Mediterranean rangelands distributed along a soil water availability gradient.

Barkaoui, Karim 12 December 2013 (has links)
Comprendre les relations entre écohydrologie et structure fonctionnelle des communautés végétales est une problématique croissante en écologie. Cette thèse a pour objectif d'analyser les effets d'un gradient de ressource édaphique sur la structure et le fonctionnement de parcours herbacés dans le sud de la France, en intégrant les niveaux de l'écosystème à la plante. Par modélisation du bilan hydrique, les différences d'utilisation de l'eau au niveau de l'écosystème ont été quantifiées pour cinq années contrastées révélatrices de la variabilité des propriétés des sols et du fonctionnement végétal. Utilisation de l'eau et productivité des plantes sont proportionnelles à la réserve utile des sols et à son taux de remplissage, suggérant un équilibre fonctionnel entre les communautés végétales et la disponibilité de l'eau locale. Par une approche ‘traits', nous avons ensuite montré que le ratio entre surface foliaire et surface racinaire totales de la communauté est le facteur déterminant une relation 'allométrique' entre évapotranspiration potentielle et capacité de prélèvements hydriques. La coordination entre les compartiments racinaire et aérien de la végétation dépend d'une suite d'adaptations architecturales et morphologiques. Des modifications d'abondances relatives spécifiques et le turn-over d'espèces génèrent une variabilité de morphologie et de fonctionnement des communautés permettant leur adaptation à des ressources limitées. Au niveau plante, une expérimentation de transplantation a permis de quantifier l'importance relative de la disponibilité hydrique et des interactions entre plantes sur la productivité individuelle de trois espèces-cibles. L'importance de la compétition s'est révélée plus élevée sous fort niveau de ressource et dépendait plus des relations hiérarchiques entre traits que de la biomasse. La compétition entre plantes affecte les axes de niche fonctionnelle des espèces de façon indépendante, avec une convergence de la ‘teneur en matière sèche des feuilles' pour des faibles valeurs mais une plus forte divergence fonctionnelle pour la ‘hauteur des plantes'. Cette approche fonctionnelle a permis d'éclairer le rôle de la diversité végétale dans la réponse des systèmes écologiques à des ressources hydriques variables. De plus, ces résultats sur les propriétés écohydrologiques des communautés naturelles peuvent contribuer à la conception d'agro-écosytèmes complexes mieux adaptés aux sécheresses intenses prévues dans le contexte actuel de changement climatique. / Understanding the relationships between ecohydrology and functional structure of plant communities is a timely issue in plant ecology. From ecosystem to species levels, this works investigated the effects of a resource availability gradient on the structure and functioning of Mediterranean rangelands in Southern France. Using a water-balance modeling approach, differences in water-use at the ecosystem level were quantified across five contrasting years, accounting for the variability in both soil characteristics and vegetation functioning. Plant water-use and productivity scaled with soil water storage capacity and its filling rate, suggesting a functional equilibrium between plant communities and local water availability. Using a trait-based approach, we then showed that the ratio of total leaf area of the community on total root area determined an allometric relationship between potential evapotranspiration and water uptake capacity. The “coordination” between above- and belowground compartment of the vegetation was achieved by a suite of architectural and morphological adaptations. Modifications of species relative abundances and species turn-over explained morphological and functioning adaptations to cope with limiting resources. Finally at species level, a removal experiment allowed to quantify the relative importance of water limitations and effects of plant-plant interaction on individual plant productivity of three target species of graminoïds. The importance of competition increased with soil resource availability and depended more on trait-trait hierarchical distances among species than standing biomass. Competition among plants affects the axes of the functional niche of species independently, leading to the convergence of leaf dry matter content towards low values but to greater functional divergence for plant height. Overall, this functional approach provided an integrative understanding of the role of plant diversity in the response of ecological systems to changes in water availability. Furthermore, these results on ecohydrological properties of natural communities can contribute to the design of complex agro-ecosystem better adapted to intense droughts predicted under climate change.
18

Diversidade funcional ao longo de um gradiente de estresse: um estudo de caso na restinga / Functional diversity along a stress gradient: a case study in sand coastal vegetation

Parmigiani, Renan 13 August 2018 (has links)
Entender os processos que definem a montagem de comunidades é uma das questões centrais na ecologia. A influência de processos como o filtro ambiental e a competição pode ser observada na diversidade funcional das comunidades vegetais. A competição, através da exclusão competitiva, limita a similaridade de estratégias presentes na comunidade. O filtro ambiental, por outro lado, restringe as espécies que estão aptas a se estabelecer no local, diminuindo a diversidade funcional. É razoável pressupor que a influência desses processos varia em gradientes ambientais, onde o filtro ambiental exercerá maior influência em locais mais estressantes, e a competição, em locais menos estressantes. O objetivo deste trabalho é compreender a influência do filtro ambiental e da competição na diversidade funcional numa comunidade vegetal em um gradiente de estresse. Esperamos uma relação inversa entre diversidade funcional e estresse. O gradiente de estresse estudado ocorre na restinga do Parque Estadual da Ilha do Cardoso (Cananéia - SP). Amostramos 41 parcelas, com 104 espécies de plantas vasculares. Focamos a diversidade funcional em três dimensões: forma de vida, área foliar e atributos associados ao espectro de economia foliar (LES). Representamos o filtro ambiental utilizando variáveis edáficas associadas às restrições na restinga. Utilizamos a classificação de estratégias de Grime (CSR) para extrair o componente associado à competitividade de cada espécie, e a partir dela calculamos a média ponderada de cada parcela (CWM), para representar a competição. Construímos modelos lineares mistos (LMM) representando diferentes hipóteses relativas à diversidade funcional e selecionamos os melhores modelos pelo critério de Akaike (AIC). Avaliamos a diversidade funcional através das métricas: riqueza funcional (FRic), dispersão funcional (FDis) e CWM, que foram incluídas separadamente como respostas nos modelos. Na seleção de modelos o CWM de cada atributo, FRic das formas de vida e FRic para todos os atributos foram preditos pelo filtro ambiental. O FRic do LES, FRic da área foliar e todas FDis tiveram como modelo mais plausível o nulo, descartando a influência da competição e do filtro ambiental nesses componentes da diversidade funcional. A concentração em determinadas estratégias ao longo do gradiente explica a ausência de diferença na dispersão funcional. Inferimos que o filtro ambiental restringe certas estratégias, diminuindo a riqueza funcional ou deslocando o espaço funcional das comunidades. A ausência da competição afetando a diversidade funcional sugere que a limitação de similaridade exerce pouca influência na comunidade estudada, ou que a consequência da limitação de similaridade é compensada por outros processos / Understanding processes underlying community assembly is one of the main questions in community ecology. The influence of processes such as environmental filtering and competition can be observed in patterns of functional diversity patterns in plant communities. Competition, through competitive exclusion, limits similarities in ecological strategies in a given community. Environmental filtering, on the other hand, constrains the species that can be established in a given community, restricting the functional diversity. One can reasonably predict that the influence of such processes changes across environmental gradients, where the environmental filtering will exert more influence in more stressful environments, whereas competition will exert more influence in less stressful places. This study aimed to understand the influence of environmental filtering and competition on functional diversity in a plant community across a stress gradient. We expected an inverse relationship between functional diversity and stress. The stress gradient studied occurs in the restinga of the Cardoso Island State Park (Cananeia, SP). We sampled 41 sites, in which we found 104 species of vascular plants. We measured three traits: life form, leaf area and leaf economic spectrum (LES). We represented the environmental filter using edaphic variables that represent restinga environmental restrictions. We used Grime\'s strategies classification (CSR), to extract the component related to competitiveness of each species, and therefore, calculated the competition community weighted mean (CWM) of each plot as proxy of competition. We built linear mixed models (LMM) to represent different hypothesis related to functional diversity and selected the best models by Akaike Criterion (AIC). We evaluated functional diversity through three response variables in the models: functional richness (FRic), functional dispersion (FDis) and CWM. In the model selection of CWM for each trait, FRic for life form and FRic for all traits were predicted by the environmental filtering. The FRic of LES, FRic of leaf area and all models of FDis had the null model as the most plausible, discarding the influence of competition and environmental filter in functional diversity. The fact that there is a concentration of abundance around certain strategies explains why there is no difference in functional dispersion. We infer that environmental filter restricts some strategies, reducing functional richness or displacing functional space of the communities. The absence of competition affecting functional diversity suggests that limiting similarity exerts little influence on community assembly in the studied gradient, or that the consequences of similarity limitation is compensated by other process
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Ecological impacts of ash dieback in Great Britain

Hill, Louise January 2017 (has links)
Ash dieback is a severe disease of ash trees (Fraxinus spp.), caused by the invasive fungus Hymenoscyphus fraxineus. In its native East Asia, H. fraxineus is a harmless endophyte, but since its accidental import into Europe in the early 1990s it has infected over 90% of ash trees in some areas, with long-term mortality sometimes exceeding 90%. The disease was discovered in Great Britain in 2012, and has since spread rapidly. This thesis investigates some of the possible impacts on biodiversity, ecosystem functioning, and society, and in doing so identifies ways to alleviate some impacts. Britain has only 13% tree cover (among the lowest in Europe), so may be particularly vulnerable to ash loss. Better understanding of the effects and how to minimise them is critical to deliver an evidence-based response. First, we investigated impacts in woodlands by experimentally killing woodland ash trees by ring-barking. We found no short-term effect of ash loss on ground flora or earthworm communities, or on the regeneration or growth of other woody species. Observational evidence suggested that remaining canopy trees rapidly filled gaps left by ash, perhaps contributing to stability. Our woodlands appeared to be remarkably resilient to ash loss, although there may be long-term effects or impacts on other species that this experiment failed to observe. To investigate broader-scale impacts, we required high-quality abundance maps for ash and other trees across Britain. Using species distribution modelling and random forest regression, we developed a protocol to produce abundance maps from readily available data. We tested the predictive power of the resulting maps using cross validation. Our maps are the best available for abundance of British tree species, and will be useful across a wide range of disciplines. We then used them to model ecosystem vulnerability to ash loss, based on the abundance of ash and other tree species, and their ecological trait similarity. We identified areas at risk of the largest impacts, and produced guidance for positive management actions to minimise ecological change. Lastly, we investigated the financial impacts of ash dieback, estimating the total cost to Britain at &pound;9.2 billion. This figure is many times larger than the value of lost trade if biosecurity were improved to prevent future invasions, questioning the validity of financial arguments against biosecurity. We also found that loss of ecosystem services accounted for less than a third of the total cost, suggesting that ecosystem service assessments may miss a large proportion of the true cost of biodiversity loss. Overall, we found that some impacts may be less than expected, such as local effects on woodland ground flora, and others, such as the economic cost, may be much larger than expected. However, the resilience of ecosystems to a major shock such as loss of a common species, and actions to mitigate the impacts, depend on having a diversity of other trees present. The ash dieback outbreak highlights the importance of preventing other severe pests and diseases of trees from being introduced; something that has been increasing exponentially, largely due to international trade in trees. This thesis provides further firm evidence that there is an ecological and social imperative to halt this trend.
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Diversidade funcional ao longo de um gradiente de estresse: um estudo de caso na restinga / Functional diversity along a stress gradient: a case study in sand coastal vegetation

Renan Parmigiani 13 August 2018 (has links)
Entender os processos que definem a montagem de comunidades é uma das questões centrais na ecologia. A influência de processos como o filtro ambiental e a competição pode ser observada na diversidade funcional das comunidades vegetais. A competição, através da exclusão competitiva, limita a similaridade de estratégias presentes na comunidade. O filtro ambiental, por outro lado, restringe as espécies que estão aptas a se estabelecer no local, diminuindo a diversidade funcional. É razoável pressupor que a influência desses processos varia em gradientes ambientais, onde o filtro ambiental exercerá maior influência em locais mais estressantes, e a competição, em locais menos estressantes. O objetivo deste trabalho é compreender a influência do filtro ambiental e da competição na diversidade funcional numa comunidade vegetal em um gradiente de estresse. Esperamos uma relação inversa entre diversidade funcional e estresse. O gradiente de estresse estudado ocorre na restinga do Parque Estadual da Ilha do Cardoso (Cananéia - SP). Amostramos 41 parcelas, com 104 espécies de plantas vasculares. Focamos a diversidade funcional em três dimensões: forma de vida, área foliar e atributos associados ao espectro de economia foliar (LES). Representamos o filtro ambiental utilizando variáveis edáficas associadas às restrições na restinga. Utilizamos a classificação de estratégias de Grime (CSR) para extrair o componente associado à competitividade de cada espécie, e a partir dela calculamos a média ponderada de cada parcela (CWM), para representar a competição. Construímos modelos lineares mistos (LMM) representando diferentes hipóteses relativas à diversidade funcional e selecionamos os melhores modelos pelo critério de Akaike (AIC). Avaliamos a diversidade funcional através das métricas: riqueza funcional (FRic), dispersão funcional (FDis) e CWM, que foram incluídas separadamente como respostas nos modelos. Na seleção de modelos o CWM de cada atributo, FRic das formas de vida e FRic para todos os atributos foram preditos pelo filtro ambiental. O FRic do LES, FRic da área foliar e todas FDis tiveram como modelo mais plausível o nulo, descartando a influência da competição e do filtro ambiental nesses componentes da diversidade funcional. A concentração em determinadas estratégias ao longo do gradiente explica a ausência de diferença na dispersão funcional. Inferimos que o filtro ambiental restringe certas estratégias, diminuindo a riqueza funcional ou deslocando o espaço funcional das comunidades. A ausência da competição afetando a diversidade funcional sugere que a limitação de similaridade exerce pouca influência na comunidade estudada, ou que a consequência da limitação de similaridade é compensada por outros processos / Understanding processes underlying community assembly is one of the main questions in community ecology. The influence of processes such as environmental filtering and competition can be observed in patterns of functional diversity patterns in plant communities. Competition, through competitive exclusion, limits similarities in ecological strategies in a given community. Environmental filtering, on the other hand, constrains the species that can be established in a given community, restricting the functional diversity. One can reasonably predict that the influence of such processes changes across environmental gradients, where the environmental filtering will exert more influence in more stressful environments, whereas competition will exert more influence in less stressful places. This study aimed to understand the influence of environmental filtering and competition on functional diversity in a plant community across a stress gradient. We expected an inverse relationship between functional diversity and stress. The stress gradient studied occurs in the restinga of the Cardoso Island State Park (Cananeia, SP). We sampled 41 sites, in which we found 104 species of vascular plants. We measured three traits: life form, leaf area and leaf economic spectrum (LES). We represented the environmental filter using edaphic variables that represent restinga environmental restrictions. We used Grime\'s strategies classification (CSR), to extract the component related to competitiveness of each species, and therefore, calculated the competition community weighted mean (CWM) of each plot as proxy of competition. We built linear mixed models (LMM) to represent different hypothesis related to functional diversity and selected the best models by Akaike Criterion (AIC). We evaluated functional diversity through three response variables in the models: functional richness (FRic), functional dispersion (FDis) and CWM. In the model selection of CWM for each trait, FRic for life form and FRic for all traits were predicted by the environmental filtering. The FRic of LES, FRic of leaf area and all models of FDis had the null model as the most plausible, discarding the influence of competition and environmental filter in functional diversity. The fact that there is a concentration of abundance around certain strategies explains why there is no difference in functional dispersion. We infer that environmental filter restricts some strategies, reducing functional richness or displacing functional space of the communities. The absence of competition affecting functional diversity suggests that limiting similarity exerts little influence on community assembly in the studied gradient, or that the consequences of similarity limitation is compensated by other process

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