POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Endozoochory largely outweighs epizoochory in migrating passerines JOSÉ MIGUEL COSTA University of Coimbra, Portugal jmgncosta@hotmail.com Fruit is a critical food source for many European passerines during the autumn migration, which in turn contribute to disperse their seeds either internally, i.e. after ingestion (endozoochory), or externally, when seeds adhere to the body surface (epizoochory). Despite the recognized importance of birds as seed dispersers, the vast majority of studies focused on endozoochory while the external transport of seeds is frequently invoked as being potentially important, but remains largely unexplored. This is particularly important during the post-breeding migration of passerines, the most ubiquitous and diverse movement of potential seed carriers across Europe and into Africa, which coincides with the fruiting peak of many plant species (August-October). Our aim was to evaluate the role of migrating birds as potential long-distance seed dispersers, and comparing the prevalence of epizoochory and endozoochory during post-breeding migration. We sampled 926 wild birds in nine locations in Portugal, and retrieved 1,833 seeds of 19 plant species dispersed internally and only three seeds externally attached to three birds (Serinus serinus, Locustella naevia and Turdus merula), showing an endozoochory prevalence 85 times higher than that of epizoochory . Migrating and non-migrating passerines dispersed seeds equally. While two of the seeds transported externally had specific adaptations to epizoochory, namely spines (Torilis arvensis) and hooks (Galium aparine), the third, a large seed from a fleshy-fruited plant, Frangula alnus, is usually dispersed via endozoochory. These seeds were found on bird species with different diets, but similar behaviour (ground foragers) and in similar habitats (open agro-ecosystems). Our results highlight the strong role of migrating passerines as potentially long-distance seed dispersers and show that, at least in the autumn, the prevalence of epizoochory is several orders of magnitude lower than that of endozoochory. © The Authors & BOU, 2014 1 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Bird pollination in Europe: irrelevant or underappreciated? LUÍS P. DA SILVA H. HELENO 1 1,2 1 3 4 *, JAIME A. RAMOS , JENS M. OLESEN , ANNA TRAVESET & RUBEN 2 Marine and Environmental Research Centre (IMAR/CMA), Department of Life Sciences, University of Coimbra, Coimbra, Portugal. 2 Centre for Functional Ecology, Department of Life Sciences, University of Coimbra, Coimbra, Portugal. 3 Department of Bioscience, Aarhus University, Aarhus, Denmark, 4 Mediterranean Institute of Advanced Studies (CSIC-UIB), Terrestrial Ecology Group, Mallorca, Balearic Islands * lfpascoals@gmail.com Most flowering plants depend on animal pollination. Several animal groups, including many birds, have specialized in exploiting floral nectar, while simultaneously pollinating the flowers they visit. These specialized pollinators are present in all continents except Europe and Antarctica, and thus, insects are often considered the only ecologically relevant pollinators in Europe. Nevertheless, generalist birds are also known to visit flowers, and several reports of flower visitation by birds in this continent prompted us to review available information in order to estimate its prevalence. We retrieved reports of flower-bird interactions from 62 publications. Forty-six bird species visited the flowers of 95 plant species, 26 of these being exotic to Europe, yielding a total of 243 specific interactions. The ecological importance of bird-flower visitation in Europe is still unknown, particularly in terms of plant reproductive output, but effective pollination has been confirmed for several native and exotic plant species. We suggest nectar and pollen to be important food resources for several bird species, especially tits (Cyanistes), and Sylvia and Phylloscopus warblers during winter and spring. The prevalence of bird flowervisitation, and thus potential bird pollination, is slightly more common in the Mediterranean basin, which is a stopover to many migrant bird species, which might actually increase their effectiveness as pollinators by promoting long-distance pollen flow. We argue that research on bird pollination in Europe deserves further attention to explore its ecological and evolutionary relevance. © The Authors & BOU, 2014 2 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Simulating the effects of climate-warming on farm ecosystem services: new technologies for agri-sciences 1 1 2 3 STEPHANE A.P. DEROCLES *, DAVID H. LUNT , JONATHAN ATKINS , GUY HEMBURY & DARREN M. EVANS 1 1 Department of Biological Sciences, University of Hull, Cottingham Road, Hull HU6 7RX, UK 2 Hull University Business School (HUBS), University of Hull, Cottingham Road, Hull HU6 7RX, UK 3 Centre for Adaptive Science & Sustainability (CASS), University of Hull, Cottingham Road, Hull HU6 7RX, UK * s.derocles@hull.ac.uk Increasing greenhouse gas emissions are expected to raise global mean temperature by 2–7°C by the end of this century. Precipitation is projected to increase at high latitudes and decrease in most subtropical regions. Because temperature and precipitation are important drivers of ecosystem processes, climate change will likely affect ecosystem functioning although the potential impacts are unclear. Moreover, predicting how warming will affect ecosystem services, such as crop pollination and insect pest control, is a key challenge. We investigate the ecological and economic costs of simulated climate change on a farmland ecosystem. With a focus on wheat yields, we use a fully-replicated experiment to increase temperature by 2°C and precipitation by 10%. We measure the impact of this simulated climate change on three trophic levels in an agroecosystem: 1) the plants, 2) the herbivores (i.e. aphids as major crop pests), 3) the predators (e.g. aphid parasitoids). Next, we us a molecular approach based on DNA barcoding specifically developed for this project to identify trophic interactions. We then determine the impact of the treatments on the ecological network of plants, aphids and associated parasitoids. For the first time in an open field experiment, we demonstrate the impact of a simulated climate warming on tri-partite ecological networks. First, we observe the effect of experimental warming on plant quality, plant community structure and crop yield. For the second trophic level, we show an earlier and more important colonisation of aphids within warmed plots: aphid outbreaks increase and then lead to a loss of crop yields. We capture substantially more beetles (Coleoptera: Carabidae) and aphid parasitoids in warmed plots: an increase in the abundance of these predators may lead to top-down effects. Finally, our molecular approach shows that a simulate climate change modify the structure of tri-partite networks. © The Authors & BOU, 2014 3 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Our approach enable us to considerably improve our knowledge about the impact of climate change on farmland ecosystem services and help producers to develop ways of harnessing the ecosystem services provided by biodiversity more generally. How does light pollution affect nocturnal pollination interactions? An ecological network approach 1,2 2 3 CALLUM J. MACGREGOR , MICHAEL J. O. POCOCK , RICHARD FOX & DARREN M. EVANS 1 1 School of Biological, Biomedical and Environmental Sciences, University of Hull, Cottingham Road, Hull, HU6 7RX, UK. 2 Centre for Ecology & Hydrology, Maclean Building, Benson Lane, Crowmarsh Gifford, Wallingford, Oxfordshire, OX10 8BB, UK. 3 Butterfly Conservation, Manor Yard, East Lulworth, Wareham, Dorset, UK. * C.Macgregor@2013.hull.ac.uk Moths are in decline both in the UK and abroad; one of the proposed drivers of this decline is light pollution. Although moths are often overlooked as one of the most important groups of pollinators, the moth-pollination strategy may carry selective advantages and moths have been shown to be important pollinators in a range of species and systems. Moths are affected by artificial light in a variety of ways; however, no studies have yet investigated effects upon moths at the community level, or upon interactions between moths and plants. An ecological network approach is one valuable method to consider the effects of artificial night lighting upon the provision of pollination by moths. We hypothesise some of the ways in which plant-moth pollination networks may change as a result of artificial night lighting. We conclude that pollination by moths is an ecosystem process that may potentially be disrupted by increasing light pollution, although the nature of this disruption remains to be tested. © The Authors & BOU, 2014 4 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 The Impacts of Habitat Modification on Avian Food-Web Structure and Resilience 1,2 2 2 3 LISA MALM *, NICK LITTLEWOOD , ALI KARLEY , JAMES PEARCE-HIGGINS & DARREN EVANS 1 1 University of Hull, UK 2 James Hutton Institute, UK 3 British Trust for Ornithology, UK * Email: hej.lisa@spray.se Changes in landscape management and habitat modifications are common reasons for declines of many bird species. To understand the cause of these declines in insectivorous species, we need a better understanding of how their foraging resources are affected. New non-invasive methods of analysing food web structure and composition are necessary to understand their robustness to environmental change. A burgeoning number of studies have shown that it is possible to identify the DNA of prey species found in avian faeces, but few have used this approach to construct and analyse avian food-webs. In this project we will develop molecular techniques to identify the prey of a range of upland insectivorous birds. In particular, we will assess how livestock grazing pressure affects the food-web structure of a common upland passerine: the meadow pipit. Molecular methods will be evaluated by comparing the results to those found by identifying the species of the prey that are fed to meadow pipit chicks. The study will be carried out in Glen Finglas, Scotland, where a long term experiment examining the effects of different grazing intensities on upland plant and animal has been running since 2003. Previous studies have investigated the relationship between grazing intensity and abundance and foraging behaviour of breeding meadow pipits. It has been shown that meadow pipits prefer to search for food on low intensity grazed spots and that they mainly feed Lepidoptera larvae, adult Tipulidae and Arachnids to their chicks. It has also been shown that the right vegetation structure for arthropod availability is more important than a high arthropod abundance as a separate factor. In this study, we will also investigate the effects of different levels of grazing intensity on the composition of arthropod prey that will be identified to species. By comparing the diversity and different quantities of the prey composition between different grazing intensities we can better understand how ground foraging birds such as meadow pipits are affected by the landscape management. © The Authors & BOU, 2014 5 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Morphological and spatio-temporal mismatches shape a neotropical savanna plant-hummingbird network PIETRO K. MARUYAMA 1,4,* 3 PAULO E. OLIVEIRA & BO DALSGAARD 1 1 2 , JEFERSON VIZENTIN-BUGONI , GENILDA M. OLIVEIRA , 4 Programa de Pós-Graduacão em Ecologia, Universidade Estadual de Campinas (UNICAMP), Cx. Postal 6109, CEP: 13083-862, Campinas, SP, Brazil 2 Instituto Federal do Triângulo Mineiro, Campus Uberlândia. Fazenda Sobradinho, CP 1020, Zona Rural, Cep 38400-970. Uberlândia, MG, Brazil 3 Instituto de Biologia, Universidade Federal de Uberlândia -UFU, Cx. Postal 593, CEP 38400-902, Uberlândia, MG, Brazil 4 Center for Macroecology, Evolution and Climate, Natural History Museum of Denmark, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen Ø, Denmark * pietrokiyoshi@gmail.com Complex networks of species interactions might be determined by species traits but also by simple chance meetings governed by species abundances. Although the idea that species traits structure mutualistic networks is appealing, most studies have found abundance to be a major structuring mechanism underlying interaction frequencies. With a well-resolved plant-hummingbird interaction network from the Neotropical savanna in Brazil, we asked whether species morphology, phenology, nectar availability and habitat occupancy and/or abundance best predicted the frequency of interactions. For this, we constructed interaction probability matrices and compared them to the observed plant-hummingbird matrix through a likelihood approach. Furthermore, a recently proposed modularity algorithm for weighted bipartite networks was employed to evaluate whether these factors also scale-up to the formation of modules in the network. Interaction frequencies were best predicted by species morphology, phenology and habitat occupancy, while species abundances and nectar availability performed poorly. The plant-hummingbird network was modular, and modules were associated to morphological specialization and habitat occupancy. Our findings highlight the importance of traits as determinants of interaction frequencies and network structure, corroborating the results of a previous study on a plant-hummingbird network from the Brazilian Atlantic Forest. Thus, we propose that traits matter more in tropical planthummingbird networks than in less specialized systems. To test the generality of this hypothesis, future research could employ geographic or taxonomic cross-system comparisons contrasting networks with known differences in level of specialization. © The Authors & BOU, 2014 6 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 The impacts of simulated climate warming on plant-pollinator interactions and ecosystem services in UK agro-ecosystems 1 2 ELLEN D. MOSS *, JONATHAN ATKINS & DARREN M. EVANS 1 1 School of Biological, Biomedical & Environmental Sciences, University of Hull, UK 2 Hull University Business School, University of Hull, UK * e.moss@2013.hull.ac.uk Agro-ecosystems are under increasing pressure to provide high yields of varied and high quality food to support a growing population, whilst at the same time preventing further loss of biodiversity and providing measures to increase it. Climate change is predicted to further complicate this situation by affecting the delivery of ecosystem services. Pollination is an extremely important service in terms of food and biofuel production, it has been calculated to be worth £430 million to the UK economy. Pollination is also essential for biodiversity conservation as 78% of all temperate plant species are animalpollinated. Declines in pollinator species diversity and abundance have been well documented in recent years and are attributed to a number of factors including habitat loss and disease. Parallel declines have also been documented in insect-pollinated plants. Climate change is expected to exacerbate these declines via several mechanisms, including: forcing species range shifts, loss of specialists, and altering phenology, all of which could affect pollination service provision and lead to loss of biodiversity. This project uses a completely open field-experiment employing infra-red heaters to simulate climate-warming, in an arable farmland setting. Using a bottom-up approach we will determine how increasing temperature by 2 °C and precipitation by 10%, will affect arable weed growth, development, resources, and health, and in turn, how wild pollinator visitation varies. We will construct and analyse highly resolved plant-pollinator interaction networks to provide the first experimental evidence of how pollinator community structure, composition and robustness are affected by climate change. In addition, seed collection and analysis will allow a direct measure of pollination quality and yield across our experimental treatments. This research is part of a larger project which is also investigating how climate change will affect other organisms responsible for ecosystem service delivery, including pest regulation of wheat by parasitoid wasps. © The Authors & BOU, 2014 7 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 Mutualistic plant-frugivore networks and their impacts on seedling establishment in tropical montane forest MARCIA C. MUÑOZ 1,2,* MATTHIAS SCHLEUNING 1 3 , H. MARTIN SCHAEFER , KATRIN BÖHNING-GAESE 1,2 & 1 Biodiversity and Climate Research Centre (BiK-F) & Senckenberg Gesellschaft für Naturforschung, Senckenberganlage 25, 60325, Frankfurt am Main, Germany 2 Department of Biological Sciences, Goethe Universität, Max-von-Laue-Straße 9, 60438, Frankfurt am Main, Germany 3 Department of Evolutionary Biology and Animal Ecology, Faculty of Biology, University of Freiburg, Hauptstrasse 1, 79104, Freiburg, Germany *Email: Marcia.Munoz@senckenberg.de Seedling establishment is a key process with important implications for plant demography and forest regeneration. Most tropical woody plant species depend on frugivorous animals for dispersing their seeds, thereby providing an important ecological function for seedling establishment. The interactions of frugivorous animals and fleshyfruited plants species are embedded within mutualistic interaction networks. Little information, however, exists on how these interactions influence seedling establishment, especially in species-rich tropical communities. Our aim with this study is to assess relationships among abiotic factors (i.e. temperature, humidity and light), plant traits (i.e. crop size, fruit morphology and pulp nutritional content), mutualistic interactions (i.e. interaction strength and specialization level) and seedling establishment in Andean cloud forests. We hypothesise that interaction strength and the degree of plant specialisation directly affect seedling establishment. Accordingly, generalist plant species with a high diversity of interactions are expected to have higher establishment success and may be primarily be limited by abiotic filters. To address this hypothesis, we conducted this study along an altitudinal gradient in the Colombian Andes (1800 to 2700 m) and set up ten 2 plots (100 x 20 m ), separated by 100 m elevation. After 120 hours of diurnal observations per plot (1200 h in total) we compiled a network comprising 21 fleshyfruited plant species, 54 frugivorous bird and two mammal species. We also measured the crop size, fruit morphology and pulp nutritional content of all consumed plant species. We recorded temperature and humidity throughout the year in each plot with data loggers, and solar irradiance with hemispherical photographs. Seedling 2 establishment was assessed in 600 subplots (1m , n = 60 subplots per plot). The empirical data set obtained from our observations will allow us to estimate the relative © The Authors & BOU, 2014 8 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 importance of biotic and abiotic factors for forest regeneration and to assess the impacts of plant-frugivore networks in tropical forest. AMF – Pollinator Networks: Can differing arbuscular mycorrhizal fungal communities influence the structure of pollinator communities, and does this vary according to plant traits? PETER ORRELL University of Hull, UK P.Orrell@2013.hull.ac.uk Few studies have attempted to link below-ground species interactions with aboveground interactions. Arbuscular mycorrhizal fungi (AMF) have the potential to influence plant architecture, development rate, volatile composition, nectar and pollen abundance and quality, and a range of other factors besides the historical focus on increases in biomass. These factors may influence the attraction of pollinators, and in turn shape the ecological network structure of visiting pollinators and other animals. This experiment examines the influence of varying AMF communities on pollinator visitation rates and community structure in three genotypes of strawberry plants (Fragaria × ananassa); Elsanta, Sonata, and Darselect. Four different AMF treatments were used; sterile (control), a low diversity AMF community, a high diversity AMF community, and a commercial inoculant. This study highlights the above-below ground interaction of AM fungal and pollinator networks, as well as changes in the network structure due to the impact of plant traits, through the use of different strawberry genotypes. With increasing pressures on both declines in pollinator communities and the availability of agrochemicals, research into this field may form part of a toolset for sustainable increases in food security, as well as the promotion of important ecosystem services provided by biodiversity. © The Authors & BOU, 2014 9 POSTER ABSTRACTS Birds in the entangled bank: advances in food webs theory and practice BOU Autumn Conference | Peterborough, UK | 19 November 2014 | Twitter #BOU2014 High ecological specialization in hotspots of range-restricted species for hummingbird communities across the Americas JESPER SONNE Center for Macroecology, Evolution and Climate, Department of Biology, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen, Denmark jesper2904@hotmail.com Historical dynamics in species’ range size may influence local adaptation, speciationextinction events and spatial distributions of diversity. For instance, communities that have experienced stable conditions through time may have preserved relatively specialized interspecific associations and high proportions of range-restricted species. Here, we analyzed data for specialization, range size distributions, and contemporary climate and Quaternary climate stability for 48 plant-hummingbird mutualistic networks distributed broadly across the New World, by use of structural equation models. Our results supported a positive relationship between the proportion of range-restricted hummingbird species and community-level specialization. Further, both variables were associated with contemporary and Quaternary climate stability, but retained a tight direct relationship after accounting for these. These results, augmented by the observation that Quaternary climate stability only predicts specialization and proportion of range-restricted species through one another, suggest that other aspects of ecological stability, possibly related to deeper historical stability, increased specialization of hummingbird-plant communities with many range-restricted species. © The Authors & BOU, 2014 10
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