Trophic relationships between insectivorous birds and insect in Papua New Guinea / Trophic relationships between insectivorous birds and insect in Papua New Guinea

TVARDÍKOVÁ, Kateřina

January 2013

The thesis describes diversity of birds along a complete altitudinal gradient and in forest fragments in lowlands of Papua New Guinea. It focuses separately on the diversity of different feeding guilds, and discusses their links to habitat and food resources. More specifically, it focuses on forest insectivorous birds, their predation pressure on arthropods, feeding specializations and preferences, and some of the ways how insectivores search for food.

Species Ranges, Richness and Replacement of Trees in the Evergreen Forests of the Western Ghats

Page, Navendu

January 2015

It has been more than two centuries since the latitudinal pattern of increase in taxonomic richness from poles to equator was first documented. After two centuries of research, and with more than two dozen hypotheses proposed, an understanding of the mechanisms underlying this pattern and their relative importance remains incomplete. Factors such as evolutionary history, area and latitude associated variables such as temperature, solar energy, climatic stability and seasonality are known to influence species richness by affecting geographic range size and location over ecological and evolutionary time. Understanding the forces that affect geographic range size is, therefore, integral to our understanding of latitudinal patterns in species richness. Using woody plants as a study system, my dissertation deciphers the latitudinal pattern, if any, in species richness within the evergreen forests of the Western Ghats. These wet evergreen forests form an evolutionarily distinct biogeographic zone, which has remained isolated from its counterparts. This has resulted in a high percentage of endemism among the evergreen woody plants and, therefore, the global geographic ranges of most of these plants are restricted within the boundaries of the Western Ghats. The first main objective of this dissertation is to understand the determinants of geographic range size in the evergreen woody plants of the Western Ghats. Further, the Western Ghats are characterized by a sharp climatic gradient in temperature and rainfall seasonality that is not correlated with mean annual temperature or annual rainfall. This allows a direct test of the hypotheses and predictions that are based on climatic seasonality, without the confounding effect of other climatic correlates of latitude. Therefore, the second main objective of this dissertation is to understand the mechanisms underlying latitudinal patterns in species richness of evergreen woody plants in the Western Ghats. Regional species richness is an outcome of two factors- local species richness of each location within the region and turnover in species composition among the locations, which in turn are a result of patterns in range size, range location and range overlap. To address these two objectives, I first test the effect of climatic niche of a species in determining geographic range size and then examine the effect of latitude associated climatic seasonality on range location and range overlap. Next, I link the observed pattern in range geometry to latitudinal patterns in species turnover and finally to latitudinal patterns in species richness. While the first part of my dissertation study deals with factors that generate spatial variation in species richness, the second part deals with the factors underlying spatial variation in species composition. Environmental heterogeneity and dispersal are considered the most important determinants of species turnover i.e. change in species composition. However, their relative importance in structuring in diverse plant communities within tropical regions across different scales is poorly understood. Hence, the third objective of this dissertation is to understand the processes that influence change in species composition of woody plants within the Western Ghats. Geographic range size and population size are important attributes of species rarity, which are directly linked to their extinction risk. Hence, data on distribution and population status of species can help us focus our efforts on those species that require conservation attention. This is achieved through carrying out species threat assessments based on attributes such as range and population size and then assigning then to a threat category. A majority of species endemic to the Western Ghats have not yet been assessed, largely due to lack of data on their population and distribution status. Therefore, the fourth and the final part of my dissertation explores the application of information on species range size and abundance in prioritizing species for conservation. To address these objectives, I sampled the wet evergreen forests of the Western Ghats along a series of locations distributed across its entire latitudinal gradient. Based on 156 plots, covering a latitudinal gradient of more than 1200 km and comprising of more than 20,000 occurrence locations belonging to more than 450 species of woody plants, I derived quantitative estimates of latitudinal gradients in range size, local and regional richness as well as species turnover. I used a combination of statistical and simulation approaches to discern the mechanisms underlying large-scale pattern in species ranges, richness and turnover. My dissertation is structured as follows.

Woody Plants - Western Ghats

Endemic Woody Plants-Western Ghats

Evergreen Woody Plants Species Richness

Everygreen Forests - Western Ghats

Biogeography

Tropical Ecology

Biological Conservation

Western Ghats Biodiversity

Ecology

Contribution des corridors fluviaux à la dynamique de la biodiversité végétale urbaine / Contribution of riparian areas to urban vegetation dynamics

Schwoertzig, Eugénie

15 June 2016

L'écologie urbaine, qui a émergé depuis une trentaine d'années, s'intéresse notamment à l'étude de la biodiversité et du fonctionnement des écosystèmes en ville. Ce travail de thèse porte plus particulièrement sur l'analyse de l'écosystème "corridor fluvial", et son rôle dans la dynamique des communautés végétales en fonction d'un gradient d'urbanisation. Les corridors fluviaux assurent en effet une connexion structurelle entre la ville et la campagne, et leur conservation en milieu urbain implique d'en comprendre précisément la fonctionnalité écologique. L'objectif de ce travail est donc de mettre en évidence l'effet du gradient d'urbanisation sur la composition et la structure des communautés végétales le long d'un cour d'eau et de vérifier si l'existence en ville de corridors fluviaux contribue efficacement à la dispersion et à la rapidité de colonisation des milieux adjacents. Deux cours d'eau, la Bruche et l'hydrosystème Rhin Tortu - Ziegelwasser, ont été étudiés dans leur partie aval la plus urbaine au sein de l'Eurométropole de Strasbourg. [...] / Urban ecology, which has emerged over the last thirty years, focused in particular on studying thebiodiversity and on functioning of ecosystems in cities. This work explores urban riparian corridors and their rolein the dynamic of plant communities based on a gradient of urbanization. Indeed, riparian corridors provide astructural connection between the city and the countryside, and their conservation involves preciselyunderstanding their ecological functionality. The objectives of this work are to highlight the effect of the urbanization gradient on the composition and structure of plant communities along a river to determine whether the existence of urban riparian corridors effectivelycontributes to the colonization of adjacent areas. Two rivers, the Bruche and the Rhin Tortu - Ziegelwasser, arestudied in their most urban downstream part in the metropolitan area of Strasbourg, eastern France. [...]

Biodiversité urbaine

Communautés végétales

Dispersion

Diversité fonctionnelle

Gradient d'urbanisation

France

Paysage

Réseau écologique

Richesse spécifique

Ripisylve

Strasbourg

Traits écologiques

Végétation spontanée

Urban biodiversity

Plant communities

Dispersal

Functional diversity

Urbanization gradient

France

Landscape

Ecological network

Species richness

Riparian areas

Strasbourg

Ecological traits

Spontaneous vegetation

577.27

711

Patterns of aquatic macrophytes in the boreal region: implications for spatial scale issues and ecological assessment

Alahuhta, J. (Janne)

01 November 2011

Abstract Eutrophication and global warming are increasingly causing deterioration of aquatic ecosystems, and boreal freshwaters are especially vulnerable to these changes. Anthropogenic pressures and landscape characteristics influencing the functioning and structure of ecosystems vary with spatial scale (grain size i.e. study unit and extent i.e. study area). This emphasises that the understanding of spatial scale is a vital element when studying species distribution patterns. Moreover, spatial scale is often neglected in ecological assessments, in which the degree of ecological integrity of an ecosystem is assessed using selected biological groups. One of these groups is aquatic macrophytes. The aims of this thesis were (i) to study the distribution and richness of aquatic macrophytes in the boreal region in Finland at multiple scales and (ii) to evaluate the performance of ecological assessment metrics selected for Finnish lake macrophytes. The spatial extent at which aquatic macrophytes were studied had an important influence on the patterns found. Climatic factors associated with latitudinal and altitudinal gradient determined macrophytes at broad extent, although the patterns changed at finer regional extent. Moreover, this strong effect of climate could lead to the widening of distribution ranges of helophytes in boreal catchments during the 21st century due to the climate change. Many of these species have already widened their range limits during the previous century and increasing temperatures may create new niches for vegetation to colonize. Lake macrophyte richness, turnover and quality metrics showed a clear relationship with nutrient concentration in waters at landscape and regional extent. Helophytes and metrics were positively or inversely negatively related to nutrients, whereas species turnover and other life-form groups had a unimodal or non-significant response to nutrient availability. In addition, land use (agricultural and urban areas and forestry ditch drainage) influenced macrophytes directly through shore morphology changes and indirectly through water quality. Macrophytes were also explained at various scales by area and depth, which were related to habitat heterogeneity, and aquatic plants responded to water ionic and electrical characteristics (pH, alkalinity and conductivity). Ecological quality metrics of macrophytes appeared to be scale dependent, since land use adjacent to the lake shoreline had a higher influence on the metrics compared to land use of the whole catchment. However, the scale-related pattern in the effect of land use was not congruent between metrics, as the Trophic Index showed poorer performance compared to the proportion of type-specific species and Percent Model Affinity. This was presumably due to lack of helophytes in the species pool used and to reference values which were defined across lake types in the Trophic Index. Uneven performance of the metrics derived from different biological groups suggests that an approach integrating multiple lines of evidence on ecological status appears most feasible for assessment of the overall lake status. / Tiivistelmä Vesistöjen rehevöityminen ja ilmastonmuutos heikentävät vesiekosysteemien laatua, ja boreaaliset sisävedet ovat erityisen alttiita näiden uhkatekijöiden aiheuttamille muutoksille. Ihmistoiminnan aiheuttamien muutoksien ja luontaisten maisematekijöiden merkitys vesiekosysteemien toimintaan ja rakenteeseen vaihtelee mittakaavan (tutkimusyksikön ja -alueen) mukaan. Kuitenkin spatiaalisen mittakaavan merkitys on usein unohdettu ekologisissa arvioinneissa, joissa selvitetään ekosysteemin luonnontilaisuutta eri biologisilla lajiryhmillä. Vesikasvit ovat yksi usein käytetty biologinen ryhmä järvien ekologissa arvioinneissa. Tämän tutkimuksen tarkoitus on (i) tutkia vesikasvien levinneisyyttä ja runsautta Suomessa useissa mittakaavoissa, ja (ii) arvioida ekologisten luokittelumuuttujien toimivuutta järvien vesikasveilla eri mittakaavoissa. Mittakaava, jossa vesikasveja tutkittiin, vaikutti merkittävästi saatuihin tuloksiin. Leveysasteeseen ja korkeuteen liittyvä gradientti määritti vesikasvien levinneisyyttä alueellisessa mittakaavassa. Lisäksi ilmaston voimakas vaikutus vesikasveihin voi johtaa niiden levinneisyysrajojen laajenemiseen, koska ilmastonmuutos saattaa luoda edullisemmat kasvuolosuhteet kasvillisuudelle tällä vuosisadalla. Monet vesikasvilajit ovat jo levinneet pohjoisemmaksi 1900-luvulla, ja lämpötilojen nousu voi lisätä ekolokeroita vesikasvien levittäytymiselle. Vesikasvien runsaus, lajimäärä ja luokittelumuuttujat olivat selkeästi yhteydessä vesien ravinteisuuteen maisemallisessa ja alueellisessa mittakaavassa. Ilmaversoisilla vesikasveilla ja luokittelumuuttujilla oli positiivinen tai käänteisesti negatiivinen suhde ravinteisiin, kun taas lajimäärä ja muut vesikasvien kasvumuodot olivat unimodaalisessa tai merkityksettömässä yhteydessä ravinteisuuteen. Lisäksi maankäyttö, erityisesti maatalous, kaupunkiasutus ja metsäojitus, vaikutti vesikasveihin suoraan rantavyöhykkeen morfologisin muutoksin tai epäsuorasti ravinteisuuden kautta. Vesikasvien levinneisyyttä ja runsautta selitti myös pinta-ala ja syvyys, jotka liittyivät elinympäristön heterogeenisyyteen, sekä veden fysikaalis-kemialliset ominaisuudet, kuten pH, alkaliniteetti ja sähkönjohtokyky. Ekologiset luokittelumuuttujat olivat riippuvaisia mittakaavasta, koska rantavyöhykkeen läheisellä maankäytöllä oli suurempi merkitys muuttujille kuin koko valuma-alueen maankäytöllä. Kuitenkin mittakaavan merkitys vaihteli eri muuttujien välillä, kun referenssi-indeksi osoitti heikompaa vastetta maankäyttöön eri mittakaavoissa kuin tyyppilajien suhteellinen osuus ja prosenttinen mallin samankaltaisuus. Tämä luultavasti johtui siitä, että referenssi-indeksissä ilmaversoiset vesikasvit puuttuivat tutkittavista lajeista ja referenssiarvot olivat yhteiset riippumatta järvityypistä. Eri biologisiin ryhmiin perustuva luokittelujärjestelmä ilmensi hyvin vaihtelevasti ekologista laatua, minkä vuoksi eri muuttujia yhdistävä menetelmä, joka arvioi vesimuodostuman kokonaistilaa, on toteuttamiskelpoisin lähestymistapa boreaalisissa järvissä.

Finland

GIS

Water Framework Directive

aquatic macrophytes

boreal region

climate change

ecological classification

land use

spatial modeling

spatial scale

species distribution

species richness

GIS

Suomi

boreaalinen alue

ekologinen luokittelu

ilmastonmuutos

lajien levinneisyys

lajirunsaus

maankäyttö

spatiaalinen mallintaminen

spatiaalinen mittakaava

vesikasvit

vesipolitiikan puitedirektiivi

Diversity and Ecology of Bryophytes and Macrolichens in Primary and Secondary Montane Quercus Forests, Cordillera de Talamanca, Costa Rica / Diversität und Ökologie der Moose und Makroflechten in primären und sekundären montanen Quercus-Wäldern, Cordillera de Talamanca, Costa Rica

Holz, Ingo

06 November 2003

Folgende Themenkomplexe wurden behandelt: Biogeographie, Pflanzendiversität, Verbreitungsmuster von Lebensformen und Arten in Mikrohabitaten sowie entlang ökologischer Gradienten, Epiphyt-Porophyt-Beziehungen, Vergesellschaftung, Sekundärsukzession und die Auswahl von Indikatorarten. Zum ersten Mal wird bei einer derartigen Untersuchung die sekundäre Sukzession von Kryptogamengesellschaften in tropischen Bergregenwäldern voll berücksichtigt. Die Untersuchung wurde im Einzugsgebiet des Río Savegre auf der pazifikseitigen Abdachung der westlichen Cordillera de Talamanca (Costa Rica) durchgeführt.Kapitel 1 gibt eine generelle Einführung in Tropische Bergregenwälder und die Bedeutung von Moosen und Makroflechten als wichtige Komponenten dieser Ökosysteme. Der Leser wird in das Untersuchungsgebiet, sein Klima, seine Geologie und seine Vegetation eingeführt.Im Kapitel 2 werden die pflanzengeographischen Muster der Moose montaner Eichenwälder der Cordillera de Talamanca dargestellt und diskutiert.Kapitel 3 diskutiert Diversität, Mikrohabitatdifferenzierung und Lebensformenspektren der Moose in einem hochmontanen Eichenwald Costa Ricas. Es wurde versucht, die Moosflora aller Mikrohabitate eines Eichenwaldes, inklusive der Strauch- und Bodenschicht zu erfassen. Kapitel 4 und 5 beinhalten die Beschreibung epiphytischer Kryptogamengesellschaften (Moose und Makroflechten) in Primär- und Sekundärwäldern. Mit Hilfe einer aus dem Alpinismus abgeleiteten Klettertechnik wurden Bäume von der Stammbasis bis in die Zweige der äußeren Krone beprobt. Die Vegetationsaufnahmen repräsentieren die Variation der epiphytischen Vegetation. Prozentuale Deckungsgrade der rindenbewohnenden Moose und Makroflechten wurden geschätzt und mit Hilfe einer Detrended Correspondence Analysis (DCA)' und nicht-metrischer Multi-response Permutation Procedure (MRPP)' verglichen. Rindenproben der untersuchten Bäume wurden mit deionisiertem Wasser extrahiert und der pH-Wert bestimmt.Kapitel 4 behandelt die epiphytischen Kryptogamengemeinschaften auf den dominierenden Baumarten (Quercus copeyensis und Q. costaricensis) primärer, hochmontaner Eichenwälder Costa Ricas. Kapitel 5 vergleicht Artenreichtum, Vergesellschaftung und Ökologie der epiphytischen Kryptogamen in primären und sekundären hochmontanen Eichenwäldern Costa Ricas. Quercus copeyensis-Bäume der oberen Baumschicht von Primär- und Sekundärwäldern wurden beprobt mit dem Ziel einen Einblick in Regenerationspotential, -muster und -prozesse der Epiphytensukzession nach anthropogener Störung zu erhalten.

Mathematics and Computer Science

580 Pflanzen (Botanik)

tropical montane rain forest

epiphytes

phytogeography

hepatics

mosses

Central America

biodiversity

host preference

microhabitat

species richness

indicator species

secondary succession

tropische Bergregenwälder

Epiphyten

Phytogeographie

Lebermoose

Laubmoose

Mittelamerika

Biodiversität

Mikrohabitate

Artenreichtum

Indikatorarten

Sekundärsukzession

42.48

42.44

WNA250

WNA 350: Gebirge {Biologie, Ökologie}

Structure et dynamique d'occupation de l'espace fonctionnel à travers des gradients spatiaux et temporels

Li, Yuanzhi

January 2017

Les modèles d'occupation de niche au sein des communautés locales, la variabilité spatiale de la biodiversité le long des gradients environnementaux du stress et des perturbations, et les processus de succession végétale sont plusieurs sujets fondamentaux en écologie. Récemment, l'approche basée sur les traits est apparue comme un moyen prometteur de comprendre les processus structurant les communautés végétales et cette approche a même été proposée comme méthode pour reconstruire l'écologie communautaire en fonction des traits fonctionnels. Par conséquent, lier ces thèmes fondamentaux en utilisant une lentille fonctionnelle devrait nous donner un aperçu de certaines questions fondamentales en écologie et sera l'objectif principal de ma thèse. En général, mon projet de doctorat vise à étudier les structures de l'occupation de l'espace fonctionnel dans les gradients spatio-temporels. Plus précisément, l'objectif du chapitre 2 est (i) d'étudier les modèles d'occupation de la niche fonctionnelle en calculant trois métriques clés de niche (le volume total de niche fonctionnelle , le chevauchement des niches fonctionnelles et le volume de niche fonctionnel moyen) des communautés pauvres en espèces aux communautés riches en espèces et (ii) de déterminer le principal facteur de la structure observée de l'occupation de la niche fonctionnelle dans les communautés végétales du monde entier. Dans le chapitre 3, je vise à prédire et à expliquer la variation de la richesse en espèces selon les gradients de stress et de perturbation, en reliant le modèle d'équilibre dynamique et l'occupation de la niche fonctionnelle en fonction du cadre développé au chapitre 2. L'objectif du chapitre 4 est de tester expérimentalement l’application d'une méthode d'ordination CSR évaluée globalement en fonction de trois traits de feuilles (surface foliaire, teneur en matière sèche des feuilles et surface foliaire spécifique) dans les études locales. Enfin, l'objectif du chapitre 5 est de tester expérimentalement les hypothèses qui concilient les points de vue déterministes et historiquement contingents de la succession végétale, en étudiant la variation des divergences taxonomiques et fonctionnelles entre les communautés selon des gradients de stress et de perturbation. L'étude globale (chapitre 2) est basée sur une collection de 21 jeux de données, couvrant les biomes tropicaux et tempérés, et se compose de 313 communautés végétales représentant différentes formes de croissance. Les études locales (chapitre 3, 4 et 5) sont basées sur le même système expérimental constitué de 24 mésocosmes présentant différents niveaux de stress et de perturbation. L'expérience a commencé en 2009 avec le même mélange de graines de 30 espèces herbacées semées sur les 24 mésocosmes et s'est terminée en 2016. Nous avons permis la colonisation naturelle de graines de la banque commune de graines de sol et de l'environnement pendant la succession de sept ans. Dix traits ont été mesurés sur cinq individus (échantillonnés directement à partir des mésocosmes) par espèce par mésocosme en 2014 (chapitre 3 et 4). Un autre ensemble de traits (16 traits, y compris certains traits qui ne pouvaient pas être mesurés directement dans les mésocosmes), ont été mesurés au niveau de l'espèce (valeurs moyennes des traits) pour les 34 espèces les plus abondantes (certaines espèces disparues dans les mésocosmes) au cours des sept Ans, en les regroupant séparément pour une saison de croissance. Au chapitre 2, nous avons constaté que les communautés étaient plus diverses en termes fonctionnels (une augmentation du volume fonctionnel total) dans les communautés riches en espèces et que les espèces se chevauchaient davantage au sein de la communauté (augmentation du chevauchement fonctionnel), mais ne divisaient pas plus finement l'espace fonctionnel (aucune réduction du volume fonctionnel moyen). En outre, le filtrage de l'habitat est un processus répandu qui conduit à la caractérisation de l'occupation de niche fonctionnelle dans les communautés végétales. Dans le chapitre 3, nous avons trouvé un modèle similaire d'occupation de niche fonctionnelle sur un système expérimental avec une taille spatiale communautaire constante et un effort d'échantillonnage des traits, qui, avec le chapitre 2, nous a fourni une image plus complète et plus solide de l'occupation de niche fonctionnelle dans les communautés végétales. De plus, nous avons réussi à relier le modèle de l'occupation de la niche fonctionnelle et le modèle d'équilibre dynamique et avons constaté que le filtrage concurrentiel était le processus dominant qui détermine le mode d'occupation de la niche fonctionnelle et la richesse des espèces le long du stress et de la perturbation des gradients. Au chapitre 4, nous fournissons un soutien empirique à une méthode d'ordination CSR calibrée globalement en montrant une relation entre l'abondance relative d'espèces en croissance dans les mésocosmes ayant différents niveaux de fertilité du sol et mortalité indépendante de la densité et leur classification CSR. Au chapitre 5, nous avons montré que la succession d'installations au cours de sept ans dans ces mésocosmes était plus déterministe d'un point de vue fonctionnel, mais plus historiquement contingent d'un point de vue taxonomique et que l'importance relative de la contingence historique a diminué à mesure que l'environnement devenait plus stressé ou perturbé. En conclusion, les structures de l'occupation de l'espace fonctionnel dans (le volume fonctionnel total, le chevauchement fonctionnel et le volume fonctionnel moyen, les Chapitre 2 et 3) ou entre les communautés locales (dissimilarité fonctionnelle, chapitre 5) sont déterministes plutôt que neutres (ou contingence historique ). Les espèces tolératrices de stress sont plus avantagées dans les mésocosmes moins fertiles tandis que les espèces rudérales sont plus avantagées dans les mésocosmes avec plus de mortalité indépendante de la densité. / Abstract : The patterns of niche occupancy within local communities, the spatial variability of biodiversity along environmental gradients of stress and disturbance, and the processes of plant succession are several fundamental topics in ecology. Recently, the trait-based approach has emerged as a promising way to understand the processes structuring plant communities and has even been proposed as a method to rebuild community ecology based on functional traits. Therefore, linking these fundamental themes through a functional lens should give us more insight into some basic questions in ecology and will be the main objective of my thesis. Generally, my PhD project is to investigate the structures of functional space occupancy along both spatial and temporal gradients. Specifically, the objective of Chapter 2 is to investigate the patterns of functional niche occupancy by calculating three key niche metrics (the total functional niche volume, the functional niche overlap and the average functional niche volume) from speciespoor communities to species-rich communities and to determine the main driver of the observed pattern of functional niche occupancy across plant communities worldwide. In Chapter 3, I aim to predict and explain the variation of species richness along gradients of stress and disturbance, by linking the dynamic equilibrium model and functional niche occupancy based on the framework developed in Chapter 2. The objective of Chapter 4 is to experimentally test the application of a globally calibrated CSR ordination method based on three leaf traits (leaf area, leaf dry matter content and specific leaf area) in local studies. Finally, the aim of Chapter 5 is to experimentally test the hypotheses reconciling the deterministic and historically contingent views of plant succession, by investigating the variation of taxonomic and functional dissimilarities between communities along gradients of stress and disturbance. The global study (Chapter 2) is based on a collection 21 trait datasets, spanning tropical to temperate biomes, and consisting of 313 plant communities representing different growth forms. The local studies (Chapter 3, 4 and 5) are based on the same experimental system consisting of 24 mesocosms experiencing different levels of stress and disturbance. The experiment started in 2009 with the same seed mixture of 30 herbaceous species broadcast over the 24 mesocosms and ended in 2016. We allowed natural colonization of seeds from the common soil seed bank and from the surroundings during the seven-year succession. Ten traits were measured on five individuals (sampled directly from the mesocosms) per species per mesocosms in 2014 (Chapter 3 and 4). Another set of traits (16 traits including some traits that were not able to measured directly in the mesocosms) were measured at the species level (species mean traits values) for the 34 most abundant species (some species disappeared in the mesocosms) over the seven years, by regrowing them separately for one growing season. In Chapter 2, we found communities were more functionally diverse (an increase in total functional volume) in species-rich communities, and species overlapped more within the community (an increase in functional overlap) but did not more finely divide the functional space (no decline in average functional volume). Moreover, habitat filtering is a widespread process driving the pattern of functional niche occupancy across plant communities. In Chapter 3, we found a similar pattern of functional niche occupancy on an experimental system with a constant community spatial size and trait-sampling effort, which together with Chapter 2 provided us a more comprehensive and robust picture of functional niche occupancy across plant communities. In addition, we succeeded in linking the pattern of functional niche occupancy and the dynamic equilibrium model and found that habitat filtering was the dominant process determining the pattern of functional niche occupancy and species richness along the gradients stress and disturbance. In Chapter 4, we provide empirical support for a globally calibrated CSR ordination method by showing a relationship between the relative abundance of species growing in mesocosms having different levels of soil fertility and density-independent mortality and their CSR classification. In Chapter 5, we showed that plant succession over seven years in these mesocosms was more deterministic from a functional perspective but more historically contingent from a taxonomic perspective, and that the relative importance of historical contingency decreased as the environment became more stressed or disturbed. In conclusion, the structures of functional space occupancy within (the total functional volume, the functional overlap and the average functional volume; Chapter 2 and 3) or between local communities (functional dissimilarity, Chapter 5) are deterministic rather than neutral (or historical contingency). Stress-tolerators were more favored in high stress communities, while ruderals are more favored in high disturbed mesocosms (Chapter 4).

Average functional niche volume

Community assembly

Disturbance

Dynamic equilibrium model

Equalizing mechanisms

Functional convergence

Functional dissimilarity

Functional niche overlap

Functional traits

Habitat filtering

Historical contingency

Intraspecific trait variability

Limiting similarity

Neutral theory

Niche occupancy

Niche theory

Plant succession

Priority effects

Species coexistence

Species richness

Stabilizing mechanisms

Stress

Taxonomic dissimilarity

Total functional niche volume

Taxonomic divergence

Betesrestaureringens effekter på växtartrikedom och biologisk mångfald : -restaurering av betesmark på Hallands Väderö / Effects of grassland restoration on plant species richness and biodiversity : -pasture restoration on Hallands Väderö

Ylva, Rolfsdotter Söderberg

January 2024

Abstract Pasture is a very species-rich but threatened nature type, and compared to 200 years ago, only five percent of natural pastures remain in Sweden. One way to try to save the biological diversity that pastures harbor is to restore overgrown land by clearing and reintroducing grazing animals. At the site chosen for this study, Hallands Väderö, 92 ha of pasture have been restored during less than ten years. The purpose of this thesis is to compare species richness in vegetation on recently restored land (cleared 2-10 years ago), land that has been grazed continuously for a long time and overgrown pasture, and to investigate whether the number of plant species increases with time after a pasture restoration. Thirteen locations on the island were selected, and three randomly selected square meter squares per area were inventoried. Each area was then searched for more species that were not present in the random squares. The data underwent analysis using regression analysis, ANOVA and Tukey test. Results indicated no significant relationship between the number of species in an area and the time (years) after a restoration. The Tukey test indicated that the biological diversity (effective number of species) was statistically significant higher on continuously grazed areas than on overgrown areas and that the number of species was statistically significant higher on restored areas than on overgrown areas. This means that there is an effect of the management; the number of species increases after grazing restoration, and biodiversity is higher on continuously grazed land than on overgrown land. The fact that the overgrown pasture has the lowest number of species shows that we risk losing species if pastures are abandoned and overgrown. / Sammanfattning Betesmark är en väldigt artrik men hotad naturtyp och jämfört med för 200 år sedan finns endast fem procent av naturbetesmarkerna i Sverige kvar. Ett sätt att försöka bibehålla den biologiska mångfalden, som betesmark hyser, är att restaurera igenväxt mark genom röjning och återintroduktion av betesdjur. På den valda platsen för denna studie, Hallands Väderö, har 92 ha mark betesrestaurerats under knappt tio års tid. Syftet med detta examensarbete är att jämföra artrikedom i växtligheten på nyligen restaurerad mark (röjd för 2–10 år sedan), mark som betats kontinuerligt under lång tid och igenväxt betesmark samt att undersöka om antalet växtarter ökar med tiden efter en betesrestaurering. Tretton platser på ön valdes ut och tre slumpvis valda kvadratmeterstora rutor per område inventerades. Varje område genomsöktes sedan efter fler arter som inte fanns i de slumpade rutorna. Datan analyserades med regressionsanalys, ANOVA och Tukey-test. Resultatet visade att det inte fanns något signifikant samband mellan antal arter på ett område och tiden (år) efter en restaurering. Tukey-testet visade att den biologiska mångfalden (effektivt artantal) var statistiskt signifikant högre på kontinuerligt betade områden än igenväxta områden och att antal arter är statistiskt signifikant fler på restaurerade områden än igenväxta områden. Detta betyder att det finns en effekt av skötseln; antal arter ökar efter en betesrestaurering och den biologiska mångfalden är högre på kontinuerligt betad mark än igenväxt mark. Att den igenväxta betesmarken har lägst antal arter visar på att vi riskerar att förlora arter om betesmarker överges och växer igen.

pasture restoration

biodiversity

species richness

effective number of species

plants

plant species

number of species

clearing

pasture

betesrestaurering

biologisk mångfald

artrikedom

effektivt artantal

växter

växtarter

antal arter

artantal

hävd

betesmark

naturbetesmark

Miljö- och naturvårdsvetenskap

Natural Sciences

Naturvetenskap

Biological Sciences

Biologiska vetenskaper

Ecology

Ekologi

Funktionelle Vielfalt von Hymenopteren entlang eines Gradienten agroforstlicher Nutzung in Indonesien / Functional diversity of Hymenoptera along a gradient of agroforestry management in Indonesia

Höhn, Patrick

15 November 2007

No description available.

500 Naturwissenschaften

YA 000

Agricultural Sciences

Agroforestry systems

Hymenoptera

land-use intensity

pest control

predator

pollination

native bees

wasps

pumpkin

functional diversity

species richness

species loss

Indonesia

seasonality

tropics

local diversity

regional diversity

complementarity

resource use

ecology

conservation

biodiversity

habitat loss

deforestation

trap nests

multidimensional scaling

additive partitioning

shade trees

cocoa

Theobroma cacao

canopy

understorey

stratification

ecosystem service

landscape

Sulawesi

Lore Lindu National Park

grassland

primary forest

Cucurbita moschata

antagonists

parasitism

STORMA

population dynamics

48.16

Small remnant habitats : Important structures in fragmented landscapes

Lindgren, Jessica

January 2017

The world-wide intensification of agriculture has led to a decline in species richness due to land use change, isolation, and fragmentation of natural and semi-natural habitats in agricultural and forestry landscapes. As a consequence, there is a current landscape management focus on the importance of green infrastructure to mitigate biodiversity decline and preserve ecosystem functions e.g. pollination services and pest control. Even though intensification in agriculture has been ongoing for several hundreds of years, remnant habitats from earlier management practices may still be remaining with a surprisingly high plant richness. Preserving these habitats could help conserving plant species richness in agricultural landscapes, as well as other organisms that are dependent on plants for food and shelter. In this thesis I focus on two small remnant habitats; midfield islets and borders between managed forest and crop field in southeastern Sweden. In the past, both habitats were included in the grazing system and therefore often still have remnant population of grassland specialist species left today. I have used these two remnant habitats as model habitats to investigate the effect of landscape factors and local factors on species richness of plants, flower morphologies and plants with fleshy fruits. Additively, I analysed the effect of surrounding landscape and local openness on the functions; pollination success, biological pest control of aphids and seed predation on midfield islets. One of my studies showed that spatial distribution and size of the habitat affected plant species richness. Larger habitat size and higher connectivity between habitats increased species richness of plants in the habitats. Openness of the habitats was shown to be an important factor to increase species richness and richness of flower morphologies, both on midfield islets and in forest borders. Even though midfield islets had the highest species and morphology richness, both habitat types are needed for habitat complementary as forest borders have more plants with fleshy fruits and a higher richness of plant species that flowers in spring/early summer. It was also shown that a more complex forest border, not just with gaps in the canopy, but also with high variation in tree stem sizes increases plant species richness in the field layer. The conclusion is that by managing small remnant habitats to remain or become more semi-open and complex in their structure, would increase species richness of plants, grassland specialist species, and flower morphologies. It would also increase some ecosystem functions as seed predation and biologic pest control of aphids are more effective close to trees. If both midfield islets and forest borders would be managed to be semi-open, the area and connectivity of semi-open habitat would increase in the agricultural landscape, which may also improve pollination success as the connectivity between populations has a possibility to increase. Grassland specialist species are clearly abundant in the small remnant habitats. As the decline of semi-natural grasslands is causing a decline in grassland specialists’ species, not only plants, I recommend that small remnant habitats are included in conservation and management plans and strategies to improve habitat availability and connectivity for grassland species in agricultural landscapes. / <p>Research funder Ekoklim. Project:4339602.</p><p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Alpha-diversity

Beta-diversity

Biological pest control

Canopy cover

Connectivity

Ecosystem function

Fleshy fruits

Forest edge

Forest management

Forest specialist species

Fragmentation

Functional diversity

Gamma-diversity

Grassland specialist species

Green infrastructure

Habitat amount hypothesis

Island biogeography

Midfield islets

Plant diversity

Plant-pollinator interaction

Pollination

Remnant habitat

Seed predation

Small habitats

Species richness

Structural heterogeneity

Ecology

Ekologi

Miljö- och naturvårdsvetenskap

Physical Geography

Naturgeografi

Dynamics of Forest Ecosystems Under Global Change: Applications of Artificial Intelligence in Mapping, Classification, and Projection

Akane Ota Abbasi (17123185)

10 October 2023

<p dir="ltr">Global forest ecosystems provide essential ecosystem services that contribute to water and climate regulation, food production, recreation, and raw materials. They also serve as crucial habitats for numerous terrestrial species of amphibians, birds, and mammals worldwide. However, recent decades have witnessed unprecedented changes in forest ecosystems due to climate change, shifts in species distribution patterns, increased planted forest areas, and various disturbances such as forest fires, insect infestations, and urbanization. These changes can have far-reaching impacts on ecological networks, human well-being, and the well-being of global forest ecosystems. To address these challenges, I present four studies to quantify forest dynamics through mapping, classification, and projection, using artificial intelligence tools in combination with a vast amount of training data. (I) I present a spatially continuous map of planted forest distribution across East Asia, produced by integrating multiple sources of planted and natural forest data. I found that China contributed 87% of the total planted forest areas in East Asia, most of which are located in the lowland tropical/subtropical regions and Sichuan Basin. I also estimated the dominant genus in each planted forest location. (II) I used continent-wide forest inventory data to compare the range shifts of forest types and their constituent tree species in North America in the past 50 years. I found that forest types shifted more than three times as fast as the average of their constituent tree species. This marked difference was attributable to a predominant positive covariance between tree species ranges and the change of species relative abundance. (III) Based on individual-level field surveys of trees and breeding birds across North America, I characterized New World wood-warbler (<i>Parulidae</i>) species richness and its potential drivers. I identified forest type as the most powerful predictor of New World wood-warbler species richness, which adds valuable evidence to the ongoing physiognomy versus composition debate among ornithologists. (IV) In the appendix, I utilized continent-wide forest inventory data from North America and South America and the combination of supervised and unsupervised machine learning algorithms to produce the first data-driven map of forest types in the Americas. I revealed the distribution of forest types, which are useful for cost-effective forest and biodiversity management and planning. Taken together, these studies provide insight into the dynamics of forest ecosystems at a large geographic scale and have implications for effective decision-making in conservation, management, and global restoration programs in the midst of ongoing global change.</p>

Forest biodiversity

Forest ecosystems

Modelling and simulation

Deep learning

Neural networks

Semi- and unsupervised learning

forest dynamics modeling

Global Change

Climate Change

Machine Learning

Biodiversity

Forest Ecology

forest ecosystem modeling

Planted Forests

Forest type classification

Species Distribution

Deep Learning

Forest Inventory & Analysis Program

Forest Inventory

Parulidae

Species Richness

Habitat physiognomy

Habitat Heterogeneity

Habitat Composition

Markowitz portfolio selection