Global ETD Search

61	Local Management and Landscape Effects on the Predator Guild in Vegetable Crops, with a Focus on Long-legged Flies (Diptera: Dolichopodidae) Kautz, Andrea R. 14 October 2015 (has links) No description available. Entomology Agriculture Ecology
62	Linking Microbial Community Dynamics to Litter and Soil Chemistry: Understanding the Mechanisms of Decomposition Herman, John E. 08 September 2010 (has links) No description available. Ecology Environmental Science Soil Sciences Litter decomposition extracellular enzyme lignin lignocellulose DGGE copiotrophic oligotrophic litter chemistry microbial community litter mixtures Amynthas agrestis urban-rural gradient Guild Decomposition Model
63	線上遊戲領導力形塑歷程研究-以魔獸世界公會為例 / A process analysis of how the leadership skills honed in multiplayer online games: A case study of a world of warcraft's raiding guild. 劉瑋 Unknown Date (has links) 多人角色扮演線上遊戲內是否有領導力？若有，這種能力如何培養、展現與有效實踐？本研究期待藉由探索魔獸世界公會團隊隊長(Raid Leader，簡稱RL)的遊戲歷程，探究線上遊戲如何可能成為形塑領導能力的場域，並分析此領導力應用於現實世界的機會與限制。 / 以線上遊戲「魔獸世界」為觀察環境，從RL在遊戲裡的日常工作、與他人相處、副本經歷到追求集體目標的過程，了解RL如何帶領玩家獲得成就感及形成影響力。擁有深遠故事背景、明確角色定位、任務導向及短中長期目標的「魔獸世界」正好提供良好的虛擬試煉空間，讓玩家組隊挑戰副本空間，讓玩家在自由組隊及各種征戰練習中，以團隊的力量尋找解答與達成擊敗魔王的目標。投入條件不斷變化的副本環境獲得利益與經驗等級，此過程所產生的情感與經濟的交換，使玩家間的關係變得複雜，也增加玩家對遊戲的黏著度，線上遊戲不但塑造出新的交友管道，更可能追引出新的管理模式與領袖培養機制。 / 本研究透過不同年齡與社會歷練之RL深度訪談，加上公會論壇的內容分析，察知在管理公會事務與副本征戰過程中的RL，將會於實踐遊戲目標之際建立自信與玩家間的信賴關係，並逐步形塑其領導力。此歷程中發現之策略運用、資源交換等遊戲技能；風險承擔與情緒管理等服務態度與合作分享等人格特質，與Drucker與Senge提出的領導力特質不謀而合，玩家將遊戲裡所獲得的心得分析、重組、整合，並把遊戲中與朋友相處的法則與解決問題的方式轉化及複製為現實社會裡的應用知識，線上遊戲除了可形塑創造願景、審時度勢、協調利益、嘗試創新、激勵賦能等領導者能力，可轉換至現實社會或不適宜轉換但可引以為戒的反向思考與限制也將一併於本研究中呈現。 / Is leadership really existent amongst on-line games? If so, how can those players develop, display or effectively practice their leadership when playing games? Then what will this capability affect or contribute to the virtual environment and our physical social context after players possess it? In order to answer these questions, this research has examined the character Raid leader or RL in on-line game, the World of Warcraft, investigated the forming process of his leadership and explored the ways in which an on-line game has become an arena to train leadership. Based on the World of Warcraft, we have observed RL’s daily routines in the game, the interaction with other players and the process from the dungeon (also called instance) experience to achieve team’s goal pursuit in attempts in order to realize the model of interaction in on-line game as well as the ways in which RL has led all the team member to attain achievements and form their influence. MMORPG with a long storyline, clear role position, mission orientation and different term goals offers an on-line gaming world where designed a series of quizzes and a dungeon for different player communities to challenge. Player can team up with the others, match with one another and conquer difference practices to find the resolution and defeat the monsters (also called Boss) in the dungeon. After campaigning with team members in different personalities and joining continuously changing dungeon environments to gain different bonus and experience levels, players may form a close bond with one another and exchange treasures or information on hand in terms of their economic profit during the game. Furthermore, after having some intensive interviews with RLs who are at different ages and having their own social experience in the real society as well as the analysis of the context in the guild forum, this research has discovered that RLs who manage guild affairs and conquer dungeon will establish their self-confidence and dependence with the other players when achieving the goals in games, and extend his leadership to those players. Those findings from this forming procedure not only agree with the rules to hone leadership asserted by Drucker and Senge in recent years and the characteristics but also drew forth a team dynamics force to on-line player communities and a new mass movement that may influence the social impression or educational direction in the future. By means of daily play of on-line games, players analyzed, re-organized and integrated their own feedback from the games, and involuntarily transferred the ways to get along with friends in games and to solve questions to tacit knowledge to manage the real society. In addition to the search for the vision formed in on-line games and the characteristics of leadership as consideration of the situation, co-ordination of the profits on hand, attempt to innovate and ability to stimulate talents, some changeable key points, mechanism or limitation to the real society or unchangeable but referring points will also be presented in this research. 線上遊戲魔獸世界公會 RL 副本社會認知領導力團體動力 On-line Game War of Warcraft Guild Raid Leader Dungeon SCT Leadership Team Dynamics
64	Échantillonnage et modélisation de l’habitat des communautés de poissons de rivière des basses Laurentides Chamberland, Jean-Martin 04 1900 (has links) Plusieurs études à grande échelle ont identifié la modification ou la perte d’habitats comme menace principale à la conservation des communautés de poissons d’eau douce. Au Canada, « aucune perte nette dans la capacité productive des habitats » (NNL) est le principe directeur de la politique de gestion des habitats du ministère des Pêches et Océans. Le respect du NNL implique l’avancement des connaissances au niveau des relations entre les poissons et leurs habitats, de même que des outils pour quantifier l’impact de la modification des habitats sur les poissons. Les modèles d’utilisation de l’habitat des poissons (FHUM) sont des outils qui permettent d’améliorer nos connaissances des relations poissons – habitat, de prédire la distribution des espèces, mais aussi leurs densités, biomasses ou abondances, sur la base des caractéristiques de l’environnement. L’objectif général de mon mémoire est d’améliorer la performance des FHUM pour les rivières des basses Laurentides, en suggérant des perfectionnements au niveau de 2 aspects cruciaux de l’élaboration de tels modèles : la description précise de la communauté de poissons et l’utilisation de modèles statistiques efficaces. Dans un premier chapitre, j’évalue la performance relative de la pêcheuse électrique et de l’échantillonnage en visuel (plongée de surface) pour estimer les abondances des combinaisons d’espèces et de classes de taille des poissons en rivière. J’évalue aussi l’effet des conditions environnementales sur les différences potentielles entre les communautés observées par ces 2 méthodes d’échantillonnage. Pour ce faire, 10 sections de rivière de 20 m de longueur ont été échantillonnées à l’aide de ces 2 méthodes alors qu’elles étaient fermées par des filets de blocage. 3 plongeurs performèrent l’échantillonnage en visuel en se déplaçant de l’aval vers l’amont des sections, tout en dénombrant les espèces et classes de taille. Par la suite, nous avons fait 3 passages de pêcheuse électrique et les abondances furent estimées grâce à un modèle restreint de maximum de vraisemblance, basé sur la diminution des abondances observées. De plus grandes abondances de poissons furent observées en visuel qu’avec la pêcheuse électrique à tous les sites. La richesse spécifique observée en visuel était plus élevée (6/10) ou égale (4/10) à celle observée avec la pêcheuse électrique. Les différences entre les communautés de poissons observées à l’aide de ces 2 méthodes ne purent être reliées aux conditions environnementales. Les résultats de cette expérience sont contraires à ceux de toutes les études comparant ces 2 méthodes d’échantillonnage, lesquels suggèrent une supériorité de la pêcheuse électrique. Les conditions environnementales de notre expérience étaient distinctes de celles observées dans les autres études (absence d’arbres tombés dans l’eau, très peu de substrats grossiers), mais la différence la plus marquante était en terme de communauté de poissons observée (dominance des cyprinidés et des centrarchidés plutôt que des salmonidés). Je termine ce chapitre en suggérant que les caractéristiques comportementales favorisant l’évitement de la capture (formation de bancs) et facilitant l’observation en visuel (curiosité) sont responsables de la supériorité de la plongée de surface pour échantillonner les communautés dans les rivières des basses Laurentides. Dans un deuxième chapitre, je développe des FHUM pour des communautés de poissons de rivière ayant plusieurs espèces. Dans le but de simplifier la modélisation de telles communautés et d’améliorer notre compréhension des relations poissons – habitat, j’utilise les concepts de guilde écologique et de filtre environnemental pour explorer les relations entre les guildes formées sur la bases de différents types de traits (reproducteurs, taxonomiques, éco-morphologiques et alimentaires) et les conditions environnementales locales à l’échelle du méso-habitat. Les modèles d’habitats basés sur les guildes reproductrices ont clairement surpassé les autres modèles, parce que l’habitat de fraie reflète l’habitat de préférence en dehors de la période de reproduction. J’ai également utilisé l’approche inverse, c’est à dire définir des guildes d’utilisation de l’habitat et les mettre en relation avec les traits des espèces. Les traits reliés à l’alimentation des poissons ont semblés être les meilleurs pour expliquer l’appartenance aux groupes d’utilisation de l’habitat, mais le modèle utilisé ne représentait pas bien la relation entre les groupes. La validation de notre modèle basé sur les guildes reproductrices avec un jeu de données indépendant pourrait confirmer notre découverte, laquelle représente une manière prometteuse de modéliser les relations poissons – environnement dans des communautés de poissons complexes. En conclusion, mon mémoire suggère d’importantes améliorations aux FHUM pour les communautés de poissons des basses Laurentides, en suggérant de prendre en compte les caractéristiques biologiques des cours d’eau dans le choix d’une méthode d’échantillonnage, et également en utilisant une méthode prometteuse pour simplifier les FHUM de communautés de poissons complexes : les guildes reproductrices. / Many large scale studies have identified habitat modification or habitat losses as primary threats for the conservation of freshwater fish communities. In Canada, No Net Loss (NNL) of the productive capacity of habitats is the guiding principle of the Department of Fisheries and Oceans’ policy for the management of fish habitat. To respect NNL, a better understanding of fish-habitat relationships is required, as well as tools to quantify the impact of habitat modifications on fish. Fish habitat use models (FHUM) are tools that can improve our understanding of fish-habitat relationships, predict species occurrences, densities or biomass on the basis of habitat descriptors and quantify habitat requirements. They consist in relationships between biological descriptors of fish and habitat descriptors. The general objective of my thesis is to improve the performance of FHUM for the lower Laurentian streams by suggesting refinements on 2 crucial aspects in the development of these models: a precise description of the fish community and the use of efficient statistical models. In the first chapter, I evaluate the relative performance of electrofishing and visual surveys (snorkeling) for estimating the abundance of combinations of fish species and size classes in rivers. I also assessed the effect of environmental conditions on potential differences between the results obtained using these two sampling methods. Sampling sites consisted in 10 river sections of 20 m in length distributed in the Laurentian region of Québec. Both methods were used while sections were blocked. Three snorkelers that swam the river sections upstream while identifying and counting fish of each species and size-classes performed visual surveys. Three-pass electrofishing was performed and abundances were estimated with a maximum likelihood depletion model. Greater abundances of fish were observed by snorkeling than by electrofishing at all sites. Snorkeling species richness was higher (6/10) or equal (4/10) to electrofishing richness. Differences in the fish communities observed by both sampling methods were not related to environmental conditions. The results of our work are therefore contrary to that of most published studies that suggested the superiority of electrofishing on visual surveys. Compared to the conditions found in previous studies, our sampling sites had different environmental characteristics (no fallen trees, insignificant cover of large cobble and boulder) but the most striking dissimilarity was in terms of fish communities (dominance of cyprinids and centrarchids instead of salmonids). Behavioural characteristics favouring capture avoidance (schooling) and facilitating underwater observation (curiosity) may be responsible for the superiority of visual surveys in our study rivers. Survey methods should be selected based on fish community composition. In the second chapter, I develop FHUM for complex stream fish communities. In order to simplify the modelling of such communities, as well as improve our understanding of fish – habitat relationships, I used the ecological guild concept and the niche filtering hypothesis to explore the relationships between guilds based on different types of traits (eco-morphological, reproductive, alimentary and taxonomic) and local environmental descriptors, at the coarse meso-habitat scale. Reproductive guilds led to FHUM that clearly outperformed the other 3 approaches, because of the close relationship between preferred spawning grounds and non spawning habitat preferences, and also because reproductive traits are linked to habitat characteristics at the reach or coarse mesohabitat scale. We also defined guilds based on habitat-use and related them to species traits. Traits related to the feeding biology of fishes seemed to be the best at explaining the habitat-use guilds, but our model did not correctly represent the among-guild relationships. Validation of our reproductive trait model on an independent dataset would confirm our finding, which represents a promising way of modelling fish - habitat relationships in complex fish communities. In conclusion, my thesis suggests important improvements to FHUM models in the Laurentian streams by giving new insights on the choice of a sampling method that take into account the biological characteristics of the streams targeted, and by using a promising way of simplifying FHUM for species rich communities: reproductive guilds. Pêcheuse électrique Plongée de surface Centrarchidé Cyprinidé Rivière Modèle d’habitat Méso-habitat Electrofishing Snorkeling Centrarchid Cyprinid Stream Fish habitat use model Meso-habitat
65	Jeux en ligne et autoformation : la guilde, comme facteur favorable aux comportements de citoyenneté organisationnelle / Online Games and self-directed learning : the guild, as favourable factor for the organizational citizenships behaviors Cerveaux, Elsa 27 December 2012 (has links) Cette recherche aborde le thème des jeux en ligne et plus précisément celui des MMORPGs. L'objet de notre étude consiste à mieux comprendre en quoi « la guilde », une forme d'organisation sociale propre à ce type de jeu, constitue un facteur favorable aux comportements de citoyenneté organisationnelle (CCO). Ces comportements sont définis au travers de la littérature comme des comportements discrétionnaires qui ne sont pas exigés par la tâche et qui contribuent au succès de l'organisation. Cette étude s'intéresse aux comportements de citoyenneté organisationnelle chez les membres d'une guilde. L'échantillon interrogé témoigne d'une perception différente en termes de citoyenneté organisationnelle. L'analyse des réponses révèle que les membres d'une guilde se considèrent davantage comme de bons citoyens organisationnels que les joueurs indépendants. Ainsi, ces divers entretiens ont fait ressortir des liens entre l'appartenance à une guilde et les comportements de citoyenneté organisationnelle en soulignant notamment l'influence de l'engagement affectif et du soutien organisationnel perçu dans ce processus de mobilisation. / This research approaches the topic of the online games and more preciselyMMORPGs. The purpose of our study is to better understand how «the guild», a particular form of social organization to this kind of play, constitutes a favourable factor for the organizational citizenship behaviors (OCB’s). These behaviors are defined, through the literature, as discretionary behaviors, that go beyond prescribed formal role requirements and duties and which contribute to the overall success of the organization. Our study focuses on the organizational citizenship behaviors of guild members. The sample of survey respondentsaccurate knowledge of a different perception in terms of organizational citizenship behaviors. The analysis of the answers also shows that the guild members consider themselves more as organizational citizens than the independent players. These semi-structured interviews emphasized the bond between the guild membership and organizational citizenship behaviors by underlining the influence of two factors such as the affective commitment and the perceived organizational support in this process of mobilization. Jeux en ligne MMORPGs Joueurs indépendants Membres d’un guilde Forme d’organisation sociale Perception de soutien organisationnel Online games MMORPGs Independent players Guild members Form of social organization Organizational citizenship behaviors
66	Spatial complexity and microclimatic responses of epiphyte communities and their invertebrate fauna in the canopy of northern rata (Metrosideros robusta A. Cunn.: Myrtaceae) on the West Coast of the South Island, New Zealand Affeld, Kathrin January 2008 (has links) Rain forest canopies are renowned for their very high biodiversity and the critical role they play in key ecological processes and their influence on global climate. Despite that New Zealand supports one of the most diverse and extensive epiphyte flora of any temperate forest system, few studies have investigated epiphyte communities and their invertebrate fauna along with factors that influence their distribution and composition. This thesis represents the first comprehensive study of entire epiphyte communities and their resident invertebrate fauna in the canopy of New Zealand’s indigenous forests. The aim of this study was to determine spatial patterns of epiphyte and invertebrate species richness, abundance and community composition in relation to abiotic variables, and in particular, the responses of these communities to elevated temperature and rainfall. This study was carried out in coastal lowland podocarp-broadleaved forests at two sites on the West Coast of the South Island of New Zealand. Samples from 120 mat-forming epiphyte assemblages located on inner canopy branches of 40 northern rata (Metrosideros robusta) trees were studied to characterise the component flora and fauna. Additionally, biomass, branch and tree characteristics and community responses to treatments designed to elevate temperature and rainfall to simulate predicted climate change were measured. This investigation revealed astonishing diversity and functional complexity of epiphyte and invertebrate life in this ecosystem. The 30.6 kg (dry weight) of epiphyte material collected contained a total of 567 species, 170 epiphyte and 397 invertebrate (excluding immature specimens and mites) species, including at least 10 species new to science and many undescribed species Epiphyte communities were found to be dominated by non-vascular plants (80 % of the total species richness), particularly liverworts and invertebrate communities were dominated with respect to abundance (~ 80 % of the total individuals) by Acari, Collembola and Hymenoptera (primarily ants) and functionally by scavengers and ants. Epiphyte and invertebrate communities were highly variable with respect to spatial patterning of species richness, abundance and composition across sites, among trees within sites and among branches within trees. Overall, a highly significant proportion, > 75 %, of the variance could be attributed to differences at the branch level, but these differences could not be explained by the environmental factors measured. There were no consistent relationships between the spatial pattern of epiphytes and invertebrates, or between vascular and non-vascular plants. However, there were significant positive correlations between epiphyte biomass and invertebrate species richness (r = 0.472; p < 0.0001) and abundance (r = -0.395; p < 0.0001), as well as non-living epiphyte biomass and scavenger species richness (r = 0.4; p < 0.0001). Microclimatic measurements taken on epiphyte mats were also highly variable with respect to temperature and relative humidity at similar physical locations within the same tree as well as across trees within sites. There was also considerable variation in the intensity and frequency of climatic extremes, although potentially harmful climatic conditions were experienced by all the epiphyte mats for which weather variables were measured. Negative correlations existed between both epiphyte and invertebrate community composition and increased temperatures expressed as cumulative degree days above 5˚C. However, variability was such that there was no direct evidence that increased temperature and rainfall treatments had an effect on invertebrate species richness, abundance or diversity. Northern rata host trees harbour an astonishingly diverse and complex canopy flora and fauna that is characterised by high spatial variability. Such variability highlights that to determine species distribution and community dynamics in canopy habitats in response to disturbance caused either by climate change or invasive species the structure of entire communities at different taxonomic and spatial scales, along with their responses to microclimatic factors, need to be studied. If such complexities are not taken into account, inappropriate interpretation may result in poor decisions concerning the conservation status, vulnerability and subsequent management of such unique ecosystems. abundance biomass bryophytes canopy climate change colonisation community composition epiphytes guild composition invertebrates lichens microclimate New Zealand non-vascular plants relative humidity species richness temperate rain forest temperature vapour pressure deficit vascular plants 060208 - Terrestrial Ecology
67	Diversity and Habitat Selection of Papilionidae in a Protected Forest Reserve in Assam, Northeast India / Boidiversität und Lebensraumwahl der Schmetterlingsfamilie Papilionidae in Assam, Nordost Indien Barua, Kamini Kusum 23 January 2008 (has links) No description available. 500 Naturwissenschaften Allgemeine Naturwissenschaften Mathematics and Natural Science Papilionidae Nahrungsgilde saisonaler Abundanz geographischen Verbreitung Indikator environment Variablen arten diversitat Papilionidae feeding guild seasonal abundance geographic range indicator environmental variables species diversity Naturwissenschaften allgemein
68	Échantillonnage et modélisation de l’habitat des communautés de poissons de rivière des basses Laurentides Chamberland, Jean-Martin 04 1900 (has links) Plusieurs études à grande échelle ont identifié la modification ou la perte d’habitats comme menace principale à la conservation des communautés de poissons d’eau douce. Au Canada, « aucune perte nette dans la capacité productive des habitats » (NNL) est le principe directeur de la politique de gestion des habitats du ministère des Pêches et Océans. Le respect du NNL implique l’avancement des connaissances au niveau des relations entre les poissons et leurs habitats, de même que des outils pour quantifier l’impact de la modification des habitats sur les poissons. Les modèles d’utilisation de l’habitat des poissons (FHUM) sont des outils qui permettent d’améliorer nos connaissances des relations poissons – habitat, de prédire la distribution des espèces, mais aussi leurs densités, biomasses ou abondances, sur la base des caractéristiques de l’environnement. L’objectif général de mon mémoire est d’améliorer la performance des FHUM pour les rivières des basses Laurentides, en suggérant des perfectionnements au niveau de 2 aspects cruciaux de l’élaboration de tels modèles : la description précise de la communauté de poissons et l’utilisation de modèles statistiques efficaces. Dans un premier chapitre, j’évalue la performance relative de la pêcheuse électrique et de l’échantillonnage en visuel (plongée de surface) pour estimer les abondances des combinaisons d’espèces et de classes de taille des poissons en rivière. J’évalue aussi l’effet des conditions environnementales sur les différences potentielles entre les communautés observées par ces 2 méthodes d’échantillonnage. Pour ce faire, 10 sections de rivière de 20 m de longueur ont été échantillonnées à l’aide de ces 2 méthodes alors qu’elles étaient fermées par des filets de blocage. 3 plongeurs performèrent l’échantillonnage en visuel en se déplaçant de l’aval vers l’amont des sections, tout en dénombrant les espèces et classes de taille. Par la suite, nous avons fait 3 passages de pêcheuse électrique et les abondances furent estimées grâce à un modèle restreint de maximum de vraisemblance, basé sur la diminution des abondances observées. De plus grandes abondances de poissons furent observées en visuel qu’avec la pêcheuse électrique à tous les sites. La richesse spécifique observée en visuel était plus élevée (6/10) ou égale (4/10) à celle observée avec la pêcheuse électrique. Les différences entre les communautés de poissons observées à l’aide de ces 2 méthodes ne purent être reliées aux conditions environnementales. Les résultats de cette expérience sont contraires à ceux de toutes les études comparant ces 2 méthodes d’échantillonnage, lesquels suggèrent une supériorité de la pêcheuse électrique. Les conditions environnementales de notre expérience étaient distinctes de celles observées dans les autres études (absence d’arbres tombés dans l’eau, très peu de substrats grossiers), mais la différence la plus marquante était en terme de communauté de poissons observée (dominance des cyprinidés et des centrarchidés plutôt que des salmonidés). Je termine ce chapitre en suggérant que les caractéristiques comportementales favorisant l’évitement de la capture (formation de bancs) et facilitant l’observation en visuel (curiosité) sont responsables de la supériorité de la plongée de surface pour échantillonner les communautés dans les rivières des basses Laurentides. Dans un deuxième chapitre, je développe des FHUM pour des communautés de poissons de rivière ayant plusieurs espèces. Dans le but de simplifier la modélisation de telles communautés et d’améliorer notre compréhension des relations poissons – habitat, j’utilise les concepts de guilde écologique et de filtre environnemental pour explorer les relations entre les guildes formées sur la bases de différents types de traits (reproducteurs, taxonomiques, éco-morphologiques et alimentaires) et les conditions environnementales locales à l’échelle du méso-habitat. Les modèles d’habitats basés sur les guildes reproductrices ont clairement surpassé les autres modèles, parce que l’habitat de fraie reflète l’habitat de préférence en dehors de la période de reproduction. J’ai également utilisé l’approche inverse, c’est à dire définir des guildes d’utilisation de l’habitat et les mettre en relation avec les traits des espèces. Les traits reliés à l’alimentation des poissons ont semblés être les meilleurs pour expliquer l’appartenance aux groupes d’utilisation de l’habitat, mais le modèle utilisé ne représentait pas bien la relation entre les groupes. La validation de notre modèle basé sur les guildes reproductrices avec un jeu de données indépendant pourrait confirmer notre découverte, laquelle représente une manière prometteuse de modéliser les relations poissons – environnement dans des communautés de poissons complexes. En conclusion, mon mémoire suggère d’importantes améliorations aux FHUM pour les communautés de poissons des basses Laurentides, en suggérant de prendre en compte les caractéristiques biologiques des cours d’eau dans le choix d’une méthode d’échantillonnage, et également en utilisant une méthode prometteuse pour simplifier les FHUM de communautés de poissons complexes : les guildes reproductrices. / Many large scale studies have identified habitat modification or habitat losses as primary threats for the conservation of freshwater fish communities. In Canada, No Net Loss (NNL) of the productive capacity of habitats is the guiding principle of the Department of Fisheries and Oceans’ policy for the management of fish habitat. To respect NNL, a better understanding of fish-habitat relationships is required, as well as tools to quantify the impact of habitat modifications on fish. Fish habitat use models (FHUM) are tools that can improve our understanding of fish-habitat relationships, predict species occurrences, densities or biomass on the basis of habitat descriptors and quantify habitat requirements. They consist in relationships between biological descriptors of fish and habitat descriptors. The general objective of my thesis is to improve the performance of FHUM for the lower Laurentian streams by suggesting refinements on 2 crucial aspects in the development of these models: a precise description of the fish community and the use of efficient statistical models. In the first chapter, I evaluate the relative performance of electrofishing and visual surveys (snorkeling) for estimating the abundance of combinations of fish species and size classes in rivers. I also assessed the effect of environmental conditions on potential differences between the results obtained using these two sampling methods. Sampling sites consisted in 10 river sections of 20 m in length distributed in the Laurentian region of Québec. Both methods were used while sections were blocked. Three snorkelers that swam the river sections upstream while identifying and counting fish of each species and size-classes performed visual surveys. Three-pass electrofishing was performed and abundances were estimated with a maximum likelihood depletion model. Greater abundances of fish were observed by snorkeling than by electrofishing at all sites. Snorkeling species richness was higher (6/10) or equal (4/10) to electrofishing richness. Differences in the fish communities observed by both sampling methods were not related to environmental conditions. The results of our work are therefore contrary to that of most published studies that suggested the superiority of electrofishing on visual surveys. Compared to the conditions found in previous studies, our sampling sites had different environmental characteristics (no fallen trees, insignificant cover of large cobble and boulder) but the most striking dissimilarity was in terms of fish communities (dominance of cyprinids and centrarchids instead of salmonids). Behavioural characteristics favouring capture avoidance (schooling) and facilitating underwater observation (curiosity) may be responsible for the superiority of visual surveys in our study rivers. Survey methods should be selected based on fish community composition. In the second chapter, I develop FHUM for complex stream fish communities. In order to simplify the modelling of such communities, as well as improve our understanding of fish – habitat relationships, I used the ecological guild concept and the niche filtering hypothesis to explore the relationships between guilds based on different types of traits (eco-morphological, reproductive, alimentary and taxonomic) and local environmental descriptors, at the coarse meso-habitat scale. Reproductive guilds led to FHUM that clearly outperformed the other 3 approaches, because of the close relationship between preferred spawning grounds and non spawning habitat preferences, and also because reproductive traits are linked to habitat characteristics at the reach or coarse mesohabitat scale. We also defined guilds based on habitat-use and related them to species traits. Traits related to the feeding biology of fishes seemed to be the best at explaining the habitat-use guilds, but our model did not correctly represent the among-guild relationships. Validation of our reproductive trait model on an independent dataset would confirm our finding, which represents a promising way of modelling fish - habitat relationships in complex fish communities. In conclusion, my thesis suggests important improvements to FHUM models in the Laurentian streams by giving new insights on the choice of a sampling method that take into account the biological characteristics of the streams targeted, and by using a promising way of simplifying FHUM for species rich communities: reproductive guilds. Pêcheuse électrique Plongée de surface Centrarchidé Cyprinidé Rivière Modèle d’habitat Méso-habitat Electrofishing Snorkeling Centrarchid Cyprinid Stream Fish habitat use model Meso-habitat
69	Spatial complexity and microclimatic responses of epiphyte communities and their invertebrate fauna in the canopy of northern rata (Metrosideros robusta A. Cunn.: Myrtaceae) on the West Coast of the South Island, New Zealand Affeld, Kathrin January 2008 (has links) Rain forest canopies are renowned for their very high biodiversity and the critical role they play in key ecological processes and their influence on global climate. Despite that New Zealand supports one of the most diverse and extensive epiphyte flora of any temperate forest system, few studies have investigated epiphyte communities and their invertebrate fauna along with factors that influence their distribution and composition. This thesis represents the first comprehensive study of entire epiphyte communities and their resident invertebrate fauna in the canopy of New Zealand’s indigenous forests. The aim of this study was to determine spatial patterns of epiphyte and invertebrate species richness, abundance and community composition in relation to abiotic variables, and in particular, the responses of these communities to elevated temperature and rainfall. This study was carried out in coastal lowland podocarp-broadleaved forests at two sites on the West Coast of the South Island of New Zealand. Samples from 120 mat-forming epiphyte assemblages located on inner canopy branches of 40 northern rata (Metrosideros robusta) trees were studied to characterise the component flora and fauna. Additionally, biomass, branch and tree characteristics and community responses to treatments designed to elevate temperature and rainfall to simulate predicted climate change were measured. This investigation revealed astonishing diversity and functional complexity of epiphyte and invertebrate life in this ecosystem. The 30.6 kg (dry weight) of epiphyte material collected contained a total of 567 species, 170 epiphyte and 397 invertebrate (excluding immature specimens and mites) species, including at least 10 species new to science and many undescribed species Epiphyte communities were found to be dominated by non-vascular plants (80 % of the total species richness), particularly liverworts and invertebrate communities were dominated with respect to abundance (~ 80 % of the total individuals) by Acari, Collembola and Hymenoptera (primarily ants) and functionally by scavengers and ants. Epiphyte and invertebrate communities were highly variable with respect to spatial patterning of species richness, abundance and composition across sites, among trees within sites and among branches within trees. Overall, a highly significant proportion, > 75 %, of the variance could be attributed to differences at the branch level, but these differences could not be explained by the environmental factors measured. There were no consistent relationships between the spatial pattern of epiphytes and invertebrates, or between vascular and non-vascular plants. However, there were significant positive correlations between epiphyte biomass and invertebrate species richness (r = 0.472; p < 0.0001) and abundance (r = -0.395; p < 0.0001), as well as non-living epiphyte biomass and scavenger species richness (r = 0.4; p < 0.0001). Microclimatic measurements taken on epiphyte mats were also highly variable with respect to temperature and relative humidity at similar physical locations within the same tree as well as across trees within sites. There was also considerable variation in the intensity and frequency of climatic extremes, although potentially harmful climatic conditions were experienced by all the epiphyte mats for which weather variables were measured. Negative correlations existed between both epiphyte and invertebrate community composition and increased temperatures expressed as cumulative degree days above 5˚C. However, variability was such that there was no direct evidence that increased temperature and rainfall treatments had an effect on invertebrate species richness, abundance or diversity. Northern rata host trees harbour an astonishingly diverse and complex canopy flora and fauna that is characterised by high spatial variability. Such variability highlights that to determine species distribution and community dynamics in canopy habitats in response to disturbance caused either by climate change or invasive species the structure of entire communities at different taxonomic and spatial scales, along with their responses to microclimatic factors, need to be studied. If such complexities are not taken into account, inappropriate interpretation may result in poor decisions concerning the conservation status, vulnerability and subsequent management of such unique ecosystems. abundance biomass bryophytes canopy climate change colonisation community composition epiphytes guild composition invertebrates lichens microclimate New Zealand non-vascular plants relative humidity species richness temperate rain forest temperature vapour pressure deficit vascular plants 060208 - Terrestrial Ecology
70	Structuration multi-échelle des communautés d'Arthropodes en agro-écosystèmes / Multi-scale structuring of arthropod communities in agroecosystems Djoudi, El Aziz 21 December 2017 (has links) Au cours de ce travail, nous nous sommes intéressés à l’influence des conditions locales et paysagères sur la structuration des communautés d’arthropodes en agroécosystèmes, ceci grâce à un dispositif de suivi situé en Ille-et-Vilaine (Bretagne, France), et comprenant des parcelles conduites en agriculture biologique et conventionnelle spatialement appariées. Notre première étude a mis en évidence que l’hétérogénéité paysagère, parfois en interaction avec le système local de culture, conditionne la diversité et l’abondance des groupes trophiques, à la fois pour les arthropodes au sol comme pour ceux de la végétation. Dans un second temps, nous avons pu montrer l’importance du contexte paysager dans la structuration des assemblages d’arthropodes prédateurs, et émis l’hypothèse que les mécanismes déterminant la distribution des espèces diffèrent fortement entre araignées et carabiques. Enfin, il est apparu la nécessité de distinguer les individus résidents (émergeants) des individus mobiles (circulants) lorsque l’on s’intéresse au rôle différentiel des facteurs locaux vs. paysagers dans la structuration des communautés de carabiques. D’une façon générale, nos résultats montrent donc une influence importante et positive de l’agriculture biologique sur les populations, assemblages d’espèces et communautés d’arthropodes, que ce soit à des échelles locales et paysagères comme en interaction avec d’autres variables paysagères. Nous avons également montré la pertinence de l’utilisation de différents niveaux d’organisation et variables réponses associées pour évaluer finement la structure et le fonctionnement de communautés d’Arthropodes en agroécosystèmes. / In this study, we got interested in quantifying how local and landscape metrics structure arthropod communities in agro-ecosystems. For that, we used a long-term monitoring design located in ‘Ille-Et-Vilaine’ (Brittany, France), composed by spatially pair-matched fields under organic vs. conventional farming systems. First, we found that landscape heterogeneity, also interacting with farming systems, drives the diversity and abundance of trophic groups for both ground- and vegetation-dwelling arthropods. In a second chapter, we showed the importance of landscape context in shaping assemblages of predatory arthropods, and suggested that mechanisms behind the distribution of individual species strongly differ between spiders and carabids. Lastly, we highlighted the importance of distinguishing between resident (emergent) and mobile (circulating) individuals when assessing the differential role of local vs. landscape factors in community assembly. Overall, our results show a strong and positive effect of organic farming on arthropod populations, assemblages and communities, both at local and landscape scales, as well as in interaction with other landscape metrics. We also highlighted the relevance of using different levels of biological organization, and related response variables, when assessing the structure and functioning of arthropod communities in agroecosystems Système de culture Agriculture biologique Agriculture conventionnelle Guildes trophiques Araignées (Araneae) Carabiques (Coleoptera Carabidae) Cultures de blé d’hiver Bretagne (Ouest de la France) Farming system Organic farming Conventional farming Trophic guild Spiders (Araneae) Ground beetles (Coleoptera Carabidae) Winter wheat fields Brittany (Western France)

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