Your search keyword '"Olesen, Jens M"' showing total 336 results

301. J. David Archibald: Charles Darwin

Author

Olesen, Jens M.

Published

2022

302. Flower and fruit herbivory in a population of Centaurea scabiosa(Asteraceae): Importance of population size and isolation

Author

Ehlers, Bodil K. and Olesen, Jens M.

Abstract

AbstractEffects of size and isolation of Centaurea scabiosa(Asteraceae) populations on herbivory level in flower heads were examined in eight populations of 2,280-44,441 flower heads, each population being separated by 1 to 8 km from the others. Three common flower head herbivores were observed. Two of these (Cerajocera ceratocera[Diptera: Tephritidae] and Isocoluscf. rogenhoferi[Hymenoptera: Cynipidae]) were specialists, and the third (Eucosma cana[Lepidoptera: Tortricidae]) was a generalist on the subfamily Cynaroiideae to which C. scabiosabelongs. All three species increased their herbivory level with size of host plant population. We compared the explanatory power of three measures of population isolation: 1) the traditional measure of distance to nearest-neighbour population, 2) cumulative proximity of all surrounding populations, and 3) a measure termed biological proximity, combining the effects of distance to other populations and their size. Both 2) and 3) explained surprisingly little of the observed herbivory. Thus population size and distance to nearest-neighbour population were the two best predictors of level of herbivory.

Published

2003

303. Growth rules based on the modularity of the Canarian Aeonium(Crassulaceae) and their phylogenetic value

Author

JORGENSEN, TOVE H and OLESEN, JENS M

Abstract

Growth forms of 22 species of Aeonium(Crassulaceae) were quantified. Since all species are simple in their modular construction, models were developed to predict module length, branching mode and flowering probability using linear and logistic regression. When combined, the parameters of these models are species specific. A discriminant analysis generates a statistically significant separation of species at the level of phylogenetic sections. The results therefore demonstrate the phylogenetic value of growth rules in plants. This dynamic approach strongly contrasts with the traditional static view on forms in systematics and morphology. It also leaves scope for predicting the evolutionary pathways of morphological change which have caused the great diversity of growth forms in the genus Aeonium.

Published

2000

304. 22 forskere: Danmark har brug for en national strategi for bestøvere

Author

Yoko Luise Dupont, Henning Bang Madsen, Claus Rasmussen, Lise Hansted, Per Kryger, Hans Peter Ravn, Inger Kappel Schmidt, Olesen, Jens M., Eigil Holm, Vibeke Langer, Lene Sigsgaard, Jørgen Eilenberg, Charlotte Skov, Kristin Marie Lassen, Erica Juel Ahrenfeldt, Isabel Calabuig, Niels Holst, Birte Boelt, Annette Bruun Jensen, Antoine Lecocq, Howe, Andy G., and Mette Termansen

305. Biodiversity, Species Interactions and Ecological Networks in a Fragmented World

Author

Hagen, Melanie, Kissling, W. Daniel, Rasmussen, Claus, Aguiar, Marcus A. M., Brown, Lee E., Carstensen, Daniel W., Alves-Dos-Santos, Isabel, Dupont, Yoko L., Edwards, Francois K., Genini, Julieta, Guimarães Jr, Paulo R., Jenkins, Gareth B., Jordano, Pedro, Kaiser-Bunbury, Christopher N., Ledger, Mark E., Maia, Kate P., Marquitti, Flavia M. Darcie, Mclaughlin, Órla, Morellato, L. Patricia C., O Gorman, Eoin J., Trøjelsgaard, Kristian, Tylianakis, Jason M., Mariana Morais Vidal, Woodward, Guy, and Olesen, Jens M.

306. En fælles front for alle bier

Author

Yoko Luise Dupont, Henning Bang Madsen, Claus Rasmussen, Lise Hansted, Per Kryger, Hans Peter Ravn, Inger Kappel Schmidt, Olesen, Jens M., Eigil Holm, Vibeke Langer, Lene Sigsgaard, Jørgen Eilenberg, Charlotte Skov, Kristin Marie Lassen, Erica Juel Ahrenfeldt, Isabel Calabuig, Niels Holst, Birte Boelt, Annette Bruun Jensen, Antoine Lecocq, Howe, Andy G., and Mette Termansen

Abstract

Truslerne mod bestøvende insekter bør imødegås afen samlet strategi for både holdte og vilde bestøvere, skriver 22 forskerei denne opfordring til at få gjort noget ved sagen.

307. En fælles front for vilde bier og honningbier

Author

Yoko Luise Dupont, Henning Bang Madsen, Claus Rasmussen, Lise Hansted, Per Kryger, Hans Peter Ravn, Inger Kappel Schmidt, Olesen, Jens M., Eigil Holm, Vibeke Langer, Lene Sigsgaard, Jørgen Eilenberg, Charlotte Skov, Kristin Marie Lassen, Erica Juel Ahrenfeldt, Isabel Calabuig, Niels Holst, Birte Boelt, Annette Bruun Jensen, Antoine Lecocq, Howe, Andy G., and Mette Termansen

308. Nested species interactions promote feasibility over stability during the assembly of a pollinator community

Author

Saavedra, Serguei, Rohr, Rudolf P., Olesen, Jens M., and Bascompte, Jordi

Subjects

Nestedness, Mutualistic networks, Feasibility, Global stability, 15. Life on land, Coexistence, Mutualistic strength

Abstract

The foundational concepts behind the persistence of ecological communities have been based on two ecological properties: dynamical stability and feasibility. The former is typically regarded as the capacity of a community to return to an original equilibrium state after a perturbation in species abundances and is usually linked to the strength of interspecific interactions. The latter is the capacity to sustain positive abundances on all its constituent species and is linked to both interspecific interactions and species demographic characteristics. Over the last 40 years, theoretical research in ecology has emphasized the search for conditions leading to the dynamical stability of ecological communities, while the conditions leading to feasibility have been overlooked. However, thus far, we have no evidence of whether species interactions are more conditioned by the community's need to be stable or feasible. Here, we introduce novel quantitative methods and use empirical data to investigate the consequences of species interactions on the dynamical stability and feasibility of mutualistic communities. First, we demonstrate that the more nested the species interactions in a community are, the lower the mutualistic strength that the community can tolerate without losing dynamical stability. Second, we show that high feasibility in a community can be reached either with high mutualistic strength or with highly nested species interactions. Third, we find that during the assembly process of a seasonal pollinator community located at The Zackenberg Research Station (northeastern Greenland), a high feasibility is reached through the nested species interactions established between newcomer and resident species. Our findings imply that nested mutualistic communities promote feasibility over stability, which may suggest that the former can be key for community persistence., Ecology and Evolution, 6 (4), ISSN:2045-7758

309. Nested species interactions promote feasibility over stability during the assembly of a pollinator community

Author

Saavedra, Serguei, Rohr, Rudolf P., Olesen, Jens M., Bascompte, Jordi, Saavedra, Serguei, Rohr, Rudolf P., Olesen, Jens M., and Bascompte, Jordi

Abstract

The foundational concepts behind the persistence of ecological communities have been based on two ecological properties: dynamical stability and feasibility. The former is typically regarded as the capacity of a community to return to an original equilibrium state after a perturbation in species abundances and is usually linked to the strength of interspecific interactions. The latter is the capacity to sustain positive abundances on all its constituent species and is linked to both interspecific interactions and species demographic characteristics. Over the last 40 years, theoretical research in ecology has emphasized the search for conditions leading to the dynamical stability of ecological communities, while the conditions leading to feasibility have been overlooked. However, thus far, we have no evidence of whether species interactions are more conditioned by the community's need to be stable or feasible. Here, we introduce novel quantitative methods and use empirical data to investigate the consequences of species interactions on the dynamical stability and feasibility of mutualistic communities. First, we demonstrate that the more nested the species interactions in a community are, the lower the mutualistic strength that the community can tolerate without losing dynamical stability. Second, we show that high feasibility in a community can be reached either with high mutualistic strength or with highly nested species interactions. Third, we find that during the assembly process of a seasonal pollinator community located at The Zackenberg Research Station (northeastern Greenland), a high feasibility is reached through the nested species interactions established between newcomer and resident species. Our findings imply that nested mutualistic communities promote feasibility over stability, which may suggest that the former can be key for community persistence.

310. Geographical variation in mutualistic networks: similarity, turnover and partner fidelity.

Author

Trøjelsgaard, Kristian, Jordano, Pedro, Carstensen, Daniel W., and Olesen, Jens M.

Subjects

SPATIO-temporal variation, BIOLOGICAL evolution, POLLINATION, SPECIES distribution, COEVOLUTION, ISLAND ecology, ANTHROPOGENIC effects on nature, SPECIES specificity

Abstract

Although species and their interactions in unison represent biodiversity and all the ecological and evolutionary processes associated with life, biotic interactions have, contrary to species, rarely been integrated into the concepts of spatial β-diversity. Here, we examine β-diversity of ecological networks by using pollination networks sampled across the Canary Islands. We show that adjacent and distant communities are more and less similar, respectively, in their composition of plants, pollinators and interactions than expected from random distributions. We further show that replacement of species is the major driver of interaction turnover and that this contribution increases with distance. Finally, we quantify that species-specific partner compositions (here called partner fidelity) deviate from random partner use, but vary as a result of ecological and geographical variables. In particular, breakdown of partner fidelity was facilitated by increasing geographical distance, changing abundances and changing linkage levels, but was not related to the geographical distribution of the species. This highlights the importance of space when comparing communities of interacting species and may stimulate a rethinking of the spatial interpretation of interaction networks. Moreover, geographical interaction dynamics and its causes are important in our efforts to anticipate effects of large-scale changes, such as anthropogenic disturbances. [ABSTRACT FROM AUTHOR]

Published

2015

311. Invaders of pollination networks in the Galápagos Islands: emergence of novel communities.

Author

Traveset, Anna, Heleno, Ruben, Chamorro, Susana, Vargas, Pablo, McMullen, Conley K., Castro-Urgal, Rocío, Nogales, Manuel, Herrera, Henri W., and Olesen, Jens M.

Subjects

POLLINATION, BIODIVERSITY, ARCHIPELAGOES, INTRODUCED species, BIOLOGICAL invasions

Abstract

The unique biodiversity of most oceanic archipelagos is currently threatened by the introduction of alien species that can displace native biota, disrupt native ecological interactions, and profoundly affect community structure and stability. We investigated the threat of aliens on pollination networks in the species-rich lowlands of five Galápagos Islands. Twenty per cent of all species (60 plants and 220 pollinators) in the pooled network were aliens, being involved in 38 per cent of the interactions. Most aliens were insects, especially dipterans (36%), hymenopterans (30%) and lepidopterans (14%). These alien insects had more links than either endemic pollinators or non-endemic natives, some even acting as island hubs. Aliens linked mostly to generalized species, increasing nestedness and thus network stability. Moreover, they infiltrated all seven connected modules (determined by geographical and phylogenetic constraints) of the overall network, representing around 30 per cent of species in two of them. An astonishingly high proportion (38%) of connectors, which enhance network cohesiveness, was also alien. Results indicate that the structure of these emergent novel communities might become more resistant to certain type of disturbances (e.g. species loss), while being more vulnerable to others (e.g. spread of a disease). Such notable changes in network structure as invasions progress are expected to have important consequences for native biodiversity maintenance. [ABSTRACT FROM AUTHOR]

Published

2013

312. Seed dispersal networks in the Galápagos and the consequences of alien plant invasions.

Author

Heleno, Ruben H., Olesen, Jens M., Nogales, Manuel, Vargas, Pablo, and Traveset, Anna

Subjects

*SEED dispersal, *PLANT invasions, *ARCHIPELAGOES, *FINCHES, *LANTANA camara, *SEED dispersal by birds, *GUAVA

Abstract

Alien plants are a growing threat to the Galápagos unique biota. We evaluated the impact of alien plants on eight seed dispersal networks from two islands of the archipelago. Nearly 10 000 intact seeds from 58 species were recovered from the droppings of 18 bird and reptile dispersers. The most dispersed invaders were Lantana camara, Rubus niveus and Psidium guajava, the latter two likely benefiting from an asynchronous fruit production with most native plants, which facilitate their consumption and spread. Lava lizards dispersed the seeds of 27 species, being the most important dispersers, followed by small ground finch, two mockingbirds, the giant tortoise and two insectivorous birds. Most animals dispersed alien seeds, but these formed a relatively small proportion of the interactions. Nevertheless, the integration of aliens was higher in the island that has been invaded for longest, suggesting a time-lag between alien plant introductions and their impacts on seed dispersal networks. Alien plants become more specialized with advancing invasion, favouring more simplified plant and disperser communities. However, only habitat type significantly affected the overall network structure. Alien plants were dispersed via two pathways: dry-fruited plants were preferentially dispersed by finches, while fleshy fruited species were mostly dispersed by other birds and reptiles. [ABSTRACT FROM AUTHOR]

Published

2013

313. Time-calibrated phylogenies reveal mediterranean and pre-mediterranean origin of the thermophilous vegetation of the Canary Islands.

Author

Martín-Hernanz, Sara, Nogales, Manuel, Valente, Luis, Fernández-Mazuecos, Mario, Pomeda-Gutiérrez, Fernando, Cano, Emilio, Marrero, Patricia, Olesen, Jens M, Heleno, Ruben, and Vargas, Pablo

Subjects

*CANARIES, *MEDITERRANEAN climate, *NUCLEAR DNA, *COLONIZATION (Ecology), *ISLANDS

Abstract

Background and Aims The Canary Islands have strong floristic affinities with the Mediterranean Basin. One of the most characteristic and diverse vegetation belts of the archipelago is the thermophilous woodland (between 200 and 900 m.a.s.l.). This thermophilous plant community consists of many non-endemic species shared with the Mediterranean Floristic Region together with Canarian endemic species. Consequently, phytogeographic studies have historically proposed the hypothesis of an origin of the Canarian thermophilous species following the establishment of the summer-dry mediterranean climate in the Mediterranean Basin around 2.8 million years ago. Methods Time-calibrated phylogenies for 39 plant groups including Canarian thermophilous species were primarily analysed to infer colonization times. In particular, we used 26 previously published phylogenies together with 13 new time-calibrated phylogenies (including newly generated plastid and nuclear DNA sequence data) to assess whether the time interval between stem and crown ages of Canarian thermophilous lineages postdates 2.8 Ma. For lineages postdating this time threshold, we additionally conducted ancestral area reconstructions to infer the potential source area for colonization. Key Results A total of 43 Canarian thermophilous lineages were identified from 39 plant groups. Both mediterranean (16) and pre-mediterranean (9) plant lineages were found. However, we failed to determine the temporal origin for 18 lineages because a stem–crown time interval overlaps with the 2.8-Ma threshold. The spatial origin of thermophilous lineages was also heterogeneous, including ancestral areas from the Mediterranean Basin (nine) and other regions (six). Conclusions Our findings reveal an unexpectedly heterogeneous origin of the Canarian thermophilous species in terms of colonization times and mainland source areas. A substantial proportion of the lineages arrived in the Canaries before the summer-dry climate was established in the Mediterranean Basin. The complex temporal and geographic origin of Canarian thermophilous species challenges the view of the Canary Islands (and Madeira) as a subregion within the Mediterranean Floristic Region. [ABSTRACT FROM AUTHOR]

Published

2023

314. Stable pollination service in a generalist high Arctic community despite the warming climate.

Author

Cirtwill, Alyssa R., Kaartinen, Riikka, Rasmussen, Claus, Redr, Deanne, Wirta, Helena, Olesen, Jens M., Tiusanen, Mikko, Ballantyne, Gavin, Cunnold, Helen, Stone, Graham N., Schmidt, Niels Martin, and Roslin, Tomas

Subjects

*GLOBAL warming, *POLLINATION, *FLOWERING of plants, *COMMUNITIES, *EXTREME weather, *GLOBAL modeling systems

Abstract

Insects provide key pollination services in most terrestrial biomes, but this service depends on a multistep interaction between insect and plant. An insect needs to visit a flower, receive pollen from the anthers, move to another conspecific flower, and finally deposit the pollen on a receptive stigma. Each of these steps may be affected by climate change, and focusing on only one of them (e.g., flower visitation) may miss important signals of change in service provision. In this study, we combine data on visitation, pollen transport, and single‐visit pollen deposition to estimate functional outcomes in the high Arctic plant‐pollinator network of Zackenberg, Northeast Greenland, a model system for global warming–associated impacts in pollination services. Over two decades of rapid climate warming, we sampled the network repeatedly: in 1996, 1997, 2010, 2011, and 2016. Although the flowering plant and insect communities and their interactions varied substantially between years, as expected based on highly variable Arctic weather, there was no detectable directional change in either the structure of flower‐visitor networks or estimated pollen deposition. For flower‐visitor networks compiled over a single week, species phenologies caused major within‐year variation in network structure despite consistency across years. Weekly networks for the middle of the flowering season emerged as especially important because most pollination service can be expected to be provided by these large, highly nested networks. Our findings suggest that pollination ecosystem service in the high Arctic is remarkably resilient. This resilience may reflect the plasticity of Arctic biota as an adaptation to extreme and unpredictable weather. However, most pollination service was contributed by relatively few fly taxa (Diptera: Spilogona sanctipauli and Drymeia segnis [Muscidae] and species of Rhamphomyia [Empididae]). If these key pollinators are negatively affected by climate change, network structure and the pollination service that depends on it would be seriously compromised. [ABSTRACT FROM AUTHOR]

Published

2023

315. Tripartite networks show that keystone species can multitask.

Author

Timóteo, Sérgio, Albrecht, Jörg, Rumeu, Beatriz, Norte, Ana C., Traveset, Anna, Frost, Carol M., Marchante, Elizabete, López‐Núñez, Francisco A., Peralta, Guadalupe, Memmott, Jane, Olesen, Jens M., Costa, José M., da Silva, Luís P., Carvalheiro, Luísa G., Correia, Marta, Staab, Michael, Blüthgen, Nico, Farwig, Nina, Hervías‐Parejo, Sandra, and Mironov, Sergei

Subjects

*KEYSTONE species, *ECOLOGICAL resilience, *PREDATION, *PERIODICAL articles, *ECOLOGICAL niche

Abstract

Keystone species are disproportionately important for ecosystem functioning. While all species engage in multiple interaction types with other species, keystone species importance is often defined based on a single dimension of their Eltonian niche, that is, one type of interaction (e.g. keystone predator). It remains unclear whether the importance of keystone species is unidimensional or if it extends across interaction types.We conducted a meta‐analysis of tripartite interaction networks examining whether species importance in one dimension of their niche is mirrored in other niche dimensions, and whether this is associated with interaction outcome, intimacy or species richness.We show that keystone species importance is positively associated across multiple ecological niche dimensions, independently of abundance, and find no evidence that multidimensionality of keystone species is influenced by the explanatory variables.We propose that the role of keystone species extends across multiple ecological niche dimensions, with important implications for ecosystem resilience and conservation. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

316. Evaluating competition for forage plants between honey bees and wild bees in Denmark.

Author

Rasmussen, Claus, Dupont, Yoko L., Madsen, Henning Bang, Bogusch, Petr, Goulson, Dave, Herbertsson, Lina, Maia, Kate Pereira, Nielsen, Anders, Olesen, Jens M., Potts, Simon G., Roberts, Stuart P. M., Sydenham, Markus Arne Kjær, and Kryger, Per

Subjects

*HONEY plants, *PLANT competition, *HONEYBEES, *BEES, *FORAGE plants, *NATURE conservation, *NATURE reserves, *LAND management

Abstract

A recurrent concern in nature conservation is the potential competition for forage plants between wild bees and managed honey bees. Specifically, that the highly sophisticated system of recruitment and large perennial colonies of honey bees quickly exhaust forage resources leading to the local extirpation of wild bees. However, different species of bees show different preferences for forage plants. We here summarize known forage plants for honey bees and wild bee species at national scale in Denmark. Our focus is on floral resources shared by honey bees and wild bees, with an emphasis on both threatened wild bee species and foraging specialist species. Across all 292 known bee species from Denmark, a total of 410 plant genera were recorded as forage plants. These included 294 plant genera visited by honey bees and 292 plant genera visited by different species of wild bees. Honey bees and wild bees share 176 plant genera in Denmark. Comparing the pairwise niche overlap for individual bee species, no significant relationship was found between their overlap and forage specialization or conservation status. Network analysis of the bee-plant interactions placed honey bees aside from most other bee species, specifically the module containing the honey bee had fewer links to any other modules, while the remaining modules were more highly inter-connected. Despite the lack of predictive relationship from the pairwise niche overlap, data for individual species could be summarized. Consequently, we have identified a set of operational parameters that, based on a high foraging overlap (>70%) and unfavorable conservation status (Vulnerable+Endangered+Critically Endangered), can guide both conservation actions and land management decisions in proximity to known or suspected populations of these species. [ABSTRACT FROM AUTHOR]

Published

2021

317. Solitary bees (Hymenoptera, Apoidea) as connectors in pollination networks: the case of Rhodanthidium.

Author

Romero, Daniel, Ornosa, Concepción, Vargas, Pablo, and Olesen, Jens M.

Subjects

*POLLINATORS, *BEES, *POLLINATION, *HYMENOPTERA, *POLLINATION by bees

Abstract

Bees (Apoidea) are the main pollinator group in Mediterranean ecosystems, having a dominant role as connectors of modules (groups of species tightly linked in pollination networks), but little is known about the role of particular species. Here, we analyse data from four Iberian networks, and we pay special attention to the role played by the solitary snail-shell bee Rhodanthidium sticticum (Fabricius, 1787) in shaping network modularity. Our results show that R. sticticum is a pollination generalist that acts as an important connector of modules, strongly influencing the topology of its networks. We also examined 51 networks from all over the world to determine the modular role of other Anthidiini species. Anthidiini were present in 14 of these networks and another Rhodanthidium species, but also two Anthidium species, played a role as connectors in their respective networks. [ABSTRACT FROM AUTHOR]

Published

2020

318. Potential role of lava lizards as pollinators across the Galápagos Islands.

Author

HERVÍAS‐PAREJO, Sandra, NOGALES, Manuel, GUZMÁN, Beatriz, TRIGO, María del Mar, OLESEN, Jens M., VARGAS, Pablo, HELENO, Ruben, and TRAVESET, Anna

Subjects

*LIZARDS, *POLLINATORS, *POLLINATION by bees, *PLANT species, *PROSOPIS juliflora, *FINCHES, *POLLEN

Abstract

Lizards have been reported as important pollinators on several oceanic islands. Here we evaluate the potential role of Galápagos lava lizards (Microlophus spp.) as pollinators across their radiation. Over 3 years, we sampled pollen transport by 9 lava lizard species on the 10 islands where they are present, including 7 single‐island endemics. Overall, only 25 of 296 individuals sampled (8.4%) transported pollen of 10 plant species, the most common being Prosopis juliflora, Exodeconus miersii, Sesuvium sp. and Cordia leucophlyctis. At least 8 of these plant species were native, and none were confirmed as introduced to the archipelago. Despite the low overall proportion of individuals carrying pollen, this was observed in 7 of the nine lizard species, and on 8 of the ten main islands (Española, Fernandina, Floreana, Isabela, Marchena, Pinta, Santa Cruz and Santiago), suggesting that this is a widespread interaction. The results reported here support the potential role of lava lizards as pollinators across their radiation, although they may represent a relatively modest contribution when compared with birds and insects. However, we cannot discard that lizards may be ecologically significant for particular plant species and ecosystems given the specific climatic condition and functional diversity of each island. [ABSTRACT FROM AUTHOR]

Published

2020

319. Analysing ecological networks of species interactions.

Author

Delmas, Eva, Besson, Mathilde, Brice, Marie‐Hélène, Burkle, Laura A., Dalla Riva, Giulio V., Fortin, Marie‐Josée, Gravel, Dominique, Guimarães, Paulo R., Hembry, David H., Newman, Erica A., Olesen, Jens M., Pires, Mathias M., Yeakel, Justin D., and Poisot, Timothée

Subjects

*GRAPH theory, *INTERACTION (Philosophy), *BIOGEOGRAPHY, *BIOTIC communities, *ECOSYSTEMS

Abstract

Network approaches to ecological questions have been increasingly used, particularly in recent decades. The abstraction of ecological systems – such as communities – through networks of interactions between their components indeed provides a way to summarize this information with single objects. The methodological framework derived from graph theory also provides numerous approaches and measures to analyze these objects and can offer new perspectives on established ecological theories as well as tools to address new challenges. However, prior to using these methods to test ecological hypotheses, it is necessary that we understand, adapt, and use them in ways that both allow us to deliver their full potential and account for their limitations. Here, we attempt to increase the accessibility of network approaches by providing a review of the tools that have been developed so far, with – what we believe to be – their appropriate uses and potential limitations. This is not an exhaustive review of all methods and metrics, but rather, an overview of tools that are robust, informative, and ecologically sound. After providing a brief presentation of species interaction networks and how to build them in order to summarize ecological information of different types, we then classify methods and metrics by the types of ecological questions that they can be used to answer from global to local scales, including methods for hypothesis testing and future perspectives. Specifically, we show how the organization of species interactions in a community yields different network structures (e.g., more or less dense, modular or nested), how different measures can be used to describe and quantify these emerging structures, and how to compare communities based on these differences in structures. Within networks, we illustrate metrics that can be used to describe and compare the functional and dynamic roles of species based on their position in the network and the organization of their interactions as well as associated new methods to test the significance of these results. Lastly, we describe potential fruitful avenues for new methodological developments to address novel ecological questions. [ABSTRACT FROM AUTHOR]

Published

2019

320. Predicting the consequences of disperser extinction: richness matters the most when abundance is low.

Author

Rumeu, Beatriz, Devoto, Mariano, Traveset, Anna, Olesen, Jens M., Vargas, Pablo, Nogales, Manuel, Heleno, Ruben, and Russo, Sabrina

Subjects

*BIODIVERSITY, *PLANT species, *PLANT classification, *SEED anatomy, *ISLAND ecology

Abstract

The ongoing biodiversity crisis entails the concomitant loss of species and the ecological services they provide. Global defaunation, and particularly the loss of frugivores, may negatively affect the seed dispersal of fleshy-fruited plant species, with predictable stronger impacts in simplified communities such as those on oceanic islands. However, logistical difficulties have hindered the experimental and theoretical need to disentangle the roles of species identity, richness (i.e. number of species) and abundance. Consequently, studies to date have focused exclusively on the loss of species richness leaving us largely ignorant regarding how species identity and abundance affect the loss of ecosystem functions., Here, we applied a network approach to disentangle the effects of disperser abundance, richness and identity on the seed dispersal service provided by frugivores to the Galapagos plant community., We found that both abundance and richness of the dispersers significantly affect the function of seed dispersal and that richness becomes increasingly important as disperser abundance declines. Extinction simulations revealed that the order of species loss has profound implications to the plant community. On the one hand, abundant generalist dispersers like the Galapagos lizards, can mitigate the loss of specialized dispersers. On the other hand, specific threats affecting key dispersers can lead to the rapid collapse of the community-level dispersal services., Our results suggest that the identity of the disperser species lost can have a large effect on the number of plant species dispersed, and generalist species are essential to the persistence of the community dispersal service. Both abundance and species richness of seed dispersers are key and synergistic drivers of the number of plant species dispersed. Consequently, the coupled negative effect of population declines and species extinctions in frugivore assemblages may lead to an accelerated loss of the seed dispersal function., is available for this article. [ABSTRACT FROM AUTHOR]

Published

2017

321. Spatial congruence between taxonomic, phylogenetic and functional hotspots: true pattern or methodological artefact?

Author

Pardo, Iker, Roquet, Cristina, Lavergne, Sébastien, Olesen, Jens M., Gómez, Daniel, García, María B., and Bolliger, Janine

Subjects

*SPECIES diversity, *PLANT communities, *VASCULAR plants, *MOLECULAR phylogeny, *PLANT classification

Abstract

Aim To assess the spatial congruence between hotspots based on taxonomic, phylogenetic and functional diversity, after accounting for the correlation between diversity metrics, and the spatial scale and sampling completeness of data. Location The Ordesa and Monte Perdido National Park (Central Pyrenees, Spain), a species-rich area subjected to intensive botanical sampling. Methods We selected hotspots using different diversity metrics and two different data sources (~49,000 occurrence records of 1379 vascular plants in 1 × 1 km grid cells and 1218 inventories of plant communities containing a total of 859 taxa) and compared their spatial congruence. The effect of sampling completeness of data was explicitly assessed. Phylogenetic diversity and functional diversity (measured with richness-dependent and richness-independent metrics) were based on a molecular phylogeny, and a functional dendrogram, respectively. The effectiveness of different types of hotspots in representing other diversity components was tested with permutation tests. Results We found that spurious correlations between diversity metrics explained the congruence between taxonomic, phylogenetic and functional hotspots. When richness-independent metrics were used, diversity hotspots were no longer congruent regardless of the source of data. Hotspots were biased towards intensively sampled grid cells, and the amount of diversity they captured was exaggerated due to the coarse spatial scale of species-occurrence data. The efficiency of hotspots in terms of integrating different diversity components was lower at community scale and not significantly higher than expected at random, regardless of the sampling completeness. Main conclusions Our results stress that the arbitrary use of diversity metrics and the scale of analyses along with the sampling bias in data can distort the true location of hotspots, and exaggerate their spatial congruence. After accounting for such methodological issues, we found a clear mismatch between diversity components that questions the utility of hotspots as a conservation tool of multiple diversity components. [ABSTRACT FROM AUTHOR]

Published

2017

322. Global patterns of mainland and insular pollination networks.

Author

Traveset, Anna, Tur, Cristina, Trøjelsgaard, Kristian, Heleno, Ruben, Castro ‐ Urgal, Rocío, Olesen, Jens M., and Santos, Ana

Subjects

*PHANEROGAMS, *POLLINATION, *PLANT fertilization, *FLOWERS, *WEATHER

Abstract

Aim Interaction networks are being increasingly used to evaluate macroecological patterns. We explored a global dataset to identify differences in the structure of pollination networks from islands (of oceanic and continental origin) and mainlands. For oceanic islands, we further evaluated the effects of key island traits on network structural parameters. Location Fifty-two quantitative plant-pollinator networks from continental islands ( n = 23), oceanic islands ( n = 18) and mainlands ( n = 11) located world-wide. Methods The effect of geographical origin upon network structure was explored by means of generalized mixed models, accounting for biogeographical region, sampling intensity, latitude and network size. For oceanic island networks, the influence of area, age, elevation and isolation was also evaluated. Results The structure of pollination networks was fairly consistent between mainland and continental islands and only a few differences were noted. Oceanic island networks, however, were smaller and topologically simplified, showing a lower interaction diversity, and higher plant niche overlap than mainland and continental island networks. Isolation and elevational range of oceanic islands influenced the total number of species and interactions. Networks from higher-elevation oceanic islands were less nested and those located towards the equator exhibited higher interaction richness. Island area showed no significant effect on any of the network metrics studied here. Main conclusions Pollination networks appear structurally similar regardless of their geographical origin. However, networks from continental islands are more similar to their mainland counterparts than to those from oceanic islands, probably due to the geological nature of continental islands, which are fragments of the mainland to which they were once connected. Oceanic island networks are the least species- and link-rich, and exhibit the lowest interaction diversity and the highest plant niche overlap, possibly due to lower pollinator richness. The most isolated and low-elevation islands show the simplest networks, and are thus probably the most vulnerable to pollination disruptions. [ABSTRACT FROM AUTHOR]

Published

2016

323. Body size in ecological networks

Author

Woodward, Guy, Ebenman, Bo, Emmerson, Mark, Montoya, Jose M., Olesen, Jens M., Valido, Alfredo, and Warren, Philip H.

Subjects

*BODY size, *BIODIVERSITY, *FOOD chains, *ECOLOGY

Abstract

Body size determines a host of species traits that can affect the structure and dynamics of food webs, and other ecological networks, across multiple scales of organization. Measuring body size provides a relatively simple means of encapsulating and condensing a large amount of the biological information embedded within an ecological network. Recently, important advances have been made by incorporating body size into theoretical models that explore food web stability, the patterning of energy fluxes, and responses to perturbations. Because metabolic constraints underpin body-size scaling relationships, metabolic theory offers a potentially useful new framework within which to develop novel models to describe the structure and functioning of ecological networks and to assess the probable consequences of biodiversity change. [Copyright &y& Elsevier]

Published

2005

324. The openness of a flower and its number of flower-visitor species

Author

Jens M. Olesen, Bodil K. Ehlers, Yoko L. Dupont, Dennis M. Hansen, University of Zurich, and Olesen, Jens M

Subjects

Pollination, biology, Ecomorphology, Fauna, Species diversity, Plant Science, medicine.disease_cause, biology.organism_classification, 10127 Institute of Evolutionary Biology and Environmental Studies, 1105 Ecology, Evolution, Behavior and Systematics, Pollen, Generalization (learning), Botany, 1110 Plant Science, medicine, Nectar, 570 Life sciences, 590 Animals (Zoology), Flowering plant, Ecology, Evolution, Behavior and Systematics

Abstract

Using a sample of 1,403 flowering plant species, we tested the hypothesis that flower openness and flower-visitor aeneralization level of a plant species correlate positively. The "flower-visitor generalization level" L. of a flo, vering plant species n, here defined as number of flower-visiting animal species attracted to the flowers of n in a aiven study site, varied enormously among plant species. Its frequency distribution was extremely skewed. Within a study site, L also increased with number of flower-visitor species A. In order to correct for this, ve expressed L relatively, as the proportion of the total flower-visitor fauna in a study site that visited a gyiv-en plant species (relative generalization level, L/A). We listed the top-10 most generalized species (both according to L and LIA) in the "world", i.e., out of our sample of 1,403 plant species. Flower openness is defined as accessibilitv to the interior of the flower. We placed the blossom classes of Facgri & van der Pijl along a aradient, albeit not very well defined, of decreasing flower openness (dish-bowl, bell-funnel, head-brush, tube. aullet. flag) and tested for any relationship to their generalization level. The classes differed slightly but significantly in their level of L/A. Tube, bell-funnel, and dish-bowl had the highest generalization level and flaLy. uullet. and head-brush the lowest. Thus, flower openness and generalization level were not correlated. We discuss other factors influencing generalization level such as accessibility to pollen and nectar, morphology and behavior of visitor, and species diversity of the different functional types of visitors.

Published

2007

325. Heterostyly in the Canarian endemic Jasminum odoratissimum (Oleaceae)

Author

Jens M. Olesen, Yoko L. Dupont, Dennis M. Hansen, Alfredo Valido, Bodil K. Ehlers, University of Zurich, and Olesen, Jens M

Subjects

education.field_of_study, biology, Population, education, Stamen, Plant Science, biology.organism_classification, medicine.disease_cause, 10127 Institute of Evolutionary Biology and Environmental Studies, 1105 Ecology, Evolution, Behavior and Systematics, Oleaceae, Pollen, 1110 Plant Science, Botany, medicine, 570 Life sciences, 590 Animals (Zoology), Heterostyly, Jasminum odoratissimum, Ecology, Evolution, Behavior and Systematics

Abstract

Jasminum odoratissimum is a Madeira and Canary Islands endemic showing classic heterostyly, i.e. with long-styled flowers with anthers at a low level in the corolla tube and short-styled flowers with anthers at a high level in the corolla tube. Short-styled flowers have large pollen whereas long-styled flowers have small pollen. The two types are present in equal frequencies in the population.

Published

2005

326. TECHNICAL COMMENT ABSTRACTS.

Author

Holland, J. Nathaniel, Okuyama, Toshinori, DeAngelis, Donald L., Bascompte, Jordi, Jordano, Pedro, and Olesen, Jens M.

Subjects

*LETTERS to the editor, *BIODIVERSITY, *ASYMMETRIC synthesis, *SPECIES, *PERIODICALS

Abstract

Several letters to the editor are presented in response to the article "Asymmetric Coevolutionary Networks Facilitate Biodiversity Maintenance" published in the April 21, 2006 issue.

Published

2006

327. RecruitNet: A global database of plant recruitment networks.

Author

Verdú M, Garrido JL, Alcántara JM, Montesinos-Navarro A, Aguilar S, Aizen MA, Al-Namazi AA, Alifriqui M, Allen D, Anderson-Teixeira KJ, Armas C, Bastida JM, Bellido T, Bonanomi G, Paterno GB, Briceño H, de Oliveira RAC, Campoy JG, Chaieb G, Chu C, Collins SE, Condit R, Constantinou E, Degirmenci CÜ, Delalandre L, Duarte M, Faife M, Fazlioglu F, Fernando ES, Flores J, Flores-Olvera H, Fodor E, Ganade G, Garcia MB, García-Fayos P, Gavini SS, Goberna M, Gómez-Aparicio L, González-Pendás E, González-Robles A, Hubbell SP, İpekdal K, Jorquera MJ, Kikvidze Z, Kütküt P, Ledo A, Lendínez S, Li B, Liu H, Lloret F, López RP, López-García Á, Lortie CJ, Losapio G, Lutz JA, Luzuriaga AL, Máliš F, Manrique E, Manzaneda AJ, Marcilio-Silva V, Michalet R, Molina-Venegas R, Navarro-Cano JA, Novotny V, Olesen JM, Ortiz-Brunel JP, Pajares-Murgó M, Parissis N, Parker G, Perea AJ, Pérez-Hernández V, Pérez-Navarro MÁ, Pistón N, Pizarro-Carbonell E, Prieto I, Prieto-Rubio J, Pugnaire FI, Ramírez N, Retuerto R, Rey PJ, Rodriguez Ginart DA, Rodríguez-Sánchez M, Sánchez-Martín R, Schöb C, Tavşanoğlu Ç, Tedoradze G, Tercero-Araque A, Tielbörger K, Touzard B, Tüfekcioğlu İ, Turkis S, Usero FM, Usta N, Valiente-Banuet A, Vargas-Colin A, Vogiatzakis I, and Zamora R

Subjects

Humans, Plants, Biological Evolution, Ecosystem, Tracheophyta

Abstract

Plant recruitment interactions (i.e., what recruits under what) shape the composition, diversity, and structure of plant communities. Despite the huge body of knowledge on the mechanisms underlying recruitment interactions among species, we still know little about the structure of the recruitment networks emerging in ecological communities. Modeling and analyzing the community-level structure of plant recruitment interactions as a complex network can provide relevant information on ecological and evolutionary processes acting both at the species and ecosystem levels. We report a data set containing 143 plant recruitment networks in 23 countries across five continents, including temperate and tropical ecosystems. Each network identifies the species under which another species recruits. All networks report the number of recruits (i.e., individuals) per species. The data set includes >850,000 recruiting individuals involved in 118,411 paired interactions among 3318 vascular plant species across the globe. The cover of canopy species and open ground is also provided. Three sampling protocols were used: (1) The Recruitment Network (RN) protocol (106 networks) focuses on interactions among established plants ("canopy species") and plants in their early stages of recruitment ("recruit species"). A series of plots was delimited within a locality, and all the individuals recruiting and their canopy species were identified; (2) The paired Canopy-Open (pCO) protocol (26 networks) consists in locating a potential canopy plant and identifying recruiting individuals under the canopy and in a nearby open space of the same area; (3) The Georeferenced plot (GP) protocol (11 networks) consists in using information from georeferenced individual plants in large plots to infer canopy-recruit interactions. Some networks incorporate data for both herbs and woody species, whereas others focus exclusively on woody species. The location of each study site, geographical coordinates, country, locality, responsible author, sampling dates, sampling method, and life habits of both canopy and recruit species are provided. This database will allow researchers to test ecological, biogeographical, and evolutionary hypotheses related to plant recruitment interactions. There are no copyright restrictions on the data set; please cite this data paper when using these data in publications., (© 2022 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.)

Published

2023

328. Ego network analysis of the trophic structure of an island land bird through 300 years of climate change and invaders.

Author

Olesen JM

Abstract

Ego net analysis is a well-known practice in social sciences, where an ego net (EN) consists of a focal node, the ego, and its links to other nodes, called alters, and alter-alter links may also be included. An EN describes how a focal node is embedded in its interaction context. Here, I introduce EN analysis to ecology in a study of the trophic network of a sub-Antarctic land bird, Lesser Sheathbill ( Chionis minor ). Data originate from the sheathbill population on Marion Island in the Southern Ocean. The bird is ego and its enemies and food are alters. The EN is organized along three dimensions: habitat, interaction type, and time (from before human arrival in 1803 and until a future year 2100). Ten EN descriptors are defined, estimated, and used to track the 300 years of change in sheathbill EN structure. Since 1803, the EN has passed two major, but reversible shifts-seal exploitation in the 19th century and presence of cats from 1949 to 1991. These shifts can be read as structural changes in the sheathbill EN. In the future, a third, perhaps irreversible change is predicted, driven by climate change and a surprising, recent shift to seabird predation by House Mouse, the most detrimental of all extant invaders on Marion. In a warmer and drier future, the mouse will proliferate, and if this forces seabirds to abandon the island, their accumulation of detritus runs dry, starving a rich invertebrate detritivore fauna, which also is a key food source to sheathbills. These detritivores together with plants have also constituted the main food sources of mice. The EN descriptors quantify that story. In the future, these events may lead to a collapse of the island ecosystem, including extinction of the sheathbill-unless plans for mouse eradication are implemented., Competing Interests: None., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

329. Netværk

Author

OLESEN, JENS MOGENS and OLESEN, JENS MOGENS

Published

2012

330. Ecological and evolutionary legacy of megafauna extinctions.

Author

Galetti M, Moleón M, Jordano P, Pires MM, Guimarães PR Jr, Pape T, Nichols E, Hansen D, Olesen JM, Munk M, de Mattos JS, Schweiger AH, Owen-Smith N, Johnson CN, Marquis RJ, and Svenning JC

Subjects

Animals, Vertebrates genetics, Biological Evolution, Ecosystem, Extinction, Biological, Vertebrates physiology

Abstract

For hundreds of millions of years, large vertebrates (megafauna) have inhabited most of the ecosystems on our planet. During the late Quaternary, notably during the Late Pleistocene and the early Holocene, Earth experienced a rapid extinction of large, terrestrial vertebrates. While much attention has been paid to understanding the causes of this massive megafauna extinction, less attention has been given to understanding the impacts of loss of megafauna on other organisms with whom they interacted. In this review, we discuss how the loss of megafauna disrupted and reshaped ecological interactions, and explore the ecological consequences of the ongoing decline of large vertebrates. Numerous late Quaternary extinct species of predators, parasites, commensals and mutualistic partners were associated with megafauna and were probably lost due to their strict dependence upon them (co-extinctions). Moreover, many extant species have megafauna-adapted traits that provided evolutionary benefits under past megafauna-rich conditions, but are now of no or limited use (anachronisms). Morphological evolution and behavioural changes allowed some of these species partially to overcome the absence of megafauna. Although the extinction of megafauna led to a number of co-extinction events, several species that likely co-evolved with megafauna established new interactions with humans and their domestic animals. Species that were highly specialized in interactions with megafauna, such as large predators, specialized parasites, and large commensalists (e.g. scavengers, dung beetles), and could not adapt to new hosts or prey were more likely to die out. Partners that were less megafauna dependent persisted because of behavioural plasticity or by shifting their dependency to humans via domestication, facilitation or pathogen spill-over, or through interactions with domestic megafauna. We argue that the ongoing extinction of the extant megafauna in the Anthropocene will catalyse another wave of co-extinctions due to the enormous diversity of key ecological interactions and functional roles provided by the megafauna., (© 2017 Cambridge Philosophical Society.)

Published

2018

331. Community-wide integration of floral colour and scent in a Mediterranean scrubland.

Author

Kantsa A, Raguso RA, Dyer AG, Sgardelis SP, Olesen JM, and Petanidou T

Subjects

Ecosystem, Greece, Pigments, Biological metabolism, Plant Physiological Phenomena, Color, Flowers physiology, Odorants analysis

Abstract

Angiosperm flowers have evolved a dazzling palette of colours and a rich bouquet of scents, principally serving to attract pollinators. Despite recent progress in the ecology of pollination, the sensory floral traits that are important for communication with pollinators (for example, colour and scent) have not been assessed in an unbiased, integrative sense within a community context. Nonetheless, floral sensory stimuli are known key factors that mediate flower visitation, thus affecting community dynamics. Here we show that flowers of the phrygana, a natural Mediterranean scrubland, display integrated patterns of scent composition and colour (as perceived by pollinators). Surprisingly, the data reveal predictive relationships between patterns of volatile composition and flower reflectance spectra. The presence of nectar is related to visual cues and the qualitative composition of floral aromas. Our results reveal a coordinated phenotypic integration consistent with the sensory abilities and perceptual biases of bees, suggesting potential facilitative effects for pollination and highlighting the fundamental importance of bees in Mediterranean-type ecosystems. We offer our unbiased approach as a starting point for more extensive, global investigations of the diversity of floral sensory phenotypes and its role in the community ecology of plant-pollinator interactions.

Published

2017

332. Below-ground plant-fungus network topology is not congruent with above-ground plant-animal network topology.

Author

Toju H, Guimarães PR Jr, Olesen JM, and Thompson JN

Abstract

In nature, plants and their pollinating and/or seed-dispersing animals form complex interaction networks. The commonly observed pattern of links between specialists and generalists in these networks has been predicted to promote species coexistence. Plants also build highly species-rich mutualistic networks below ground with root-associated fungi, and the structure of these plant-fungus networks may also affect terrestrial community processes. By compiling high-throughput DNA sequencing data sets of the symbiosis of plants and their root-associated fungi from three localities along a latitudinal gradient, we uncovered the entire network architecture of these interactions under contrasting environmental conditions. Each network included more than 30 plant species and hundreds of mycorrhizal and endophytic fungi belonging to diverse phylogenetic groups. The results were consistent with the notion that processes shaping host-plant specialization of fungal species generate a unique linkage pattern that strongly contrasts with the pattern of above-ground plant-partner networks. Specifically, plant-fungus networks lacked a "nested" architecture, which has been considered to promote species coexistence in plant-partner networks. Rather, the below-ground networks had a conspicuous "antinested" topology. Our findings lead to the working hypothesis that terrestrial plant community dynamics are likely determined by the balance between above-ground and below-ground webs of interspecific interactions.

Published

2015

333. Geographical variation in mutualistic networks: similarity, turnover and partner fidelity.

Author

Trøjelsgaard K, Jordano P, Carstensen DW, and Olesen JM

Subjects

Animals, Biodiversity, Ecosystem, Geography, Islands, Species Specificity, Symbiosis, Insecta physiology, Magnoliopsida physiology, Pollination

Abstract

Although species and their interactions in unison represent biodiversity and all the ecological and evolutionary processes associated with life, biotic interactions have, contrary to species, rarely been integrated into the concepts of spatial β-diversity. Here, we examine β-diversity of ecological networks by using pollination networks sampled across the Canary Islands. We show that adjacent and distant communities are more and less similar, respectively, in their composition of plants, pollinators and interactions than expected from random distributions. We further show that replacement of species is the major driver of interaction turnover and that this contribution increases with distance. Finally, we quantify that species-specific partner compositions (here called partner fidelity) deviate from random partner use, but vary as a result of ecological and geographical variables. In particular, breakdown of partner fidelity was facilitated by increasing geographical distance, changing abundances and changing linkage levels, but was not related to the geographical distribution of the species. This highlights the importance of space when comparing communities of interacting species and may stimulate a rethinking of the spatial interpretation of interaction networks. Moreover, geographical interaction dynamics and its causes are important in our efforts to anticipate effects of large-scale changes, such as anthropogenic disturbances., (© 2015 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2015

334. Assembly of complex plant-fungus networks.

Author

Toju H, Guimarães PR, Olesen JM, and Thompson JN

Subjects

Biological Evolution, Chloroplasts metabolism, DNA chemistry, Forests, Japan, Phylogeny, Ecosystem, Fungi metabolism, Plants microbiology, Symbiosis

Abstract

Species in ecological communities build complex webs of interaction. Although revealing the architecture of these networks is fundamental to understanding ecological and evolutionary dynamics in nature, it has been difficult to characterize the structure of most species-rich ecological systems. By overcoming this limitation through next-generation sequencing technology, we herein uncover the network architecture of below-ground plant-fungus symbioses, which are ubiquitous to terrestrial ecosystems. The examined symbiotic network of a temperate forest in Japan includes 33 plant species and 387 functionally and phylogenetically diverse fungal taxa, and the overall network architecture differs fundamentally from that of other ecological networks. In contrast to results for other ecological networks and theoretical predictions for symbiotic networks, the plant-fungus network shows moderate or relatively low levels of interaction specialization and modularity and an unusual pattern of 'nested' network architecture. These results suggest that species-rich ecological networks are more architecturally diverse than previously recognized.

Published

2014

335. Invaders of pollination networks in the Galapagos Islands: emergence of novel communities.

Author

Traveset A, Heleno R, Chamorro S, Vargas P, McMullen CK, Castro-Urgal R, Nogales M, Herrera HW, and Olesen JM

Subjects

Animals, Conservation of Natural Resources, Desert Climate, Ecuador, Introduced Species, Biota, Insecta physiology, Magnoliopsida physiology, Pollination

Abstract

The unique biodiversity of most oceanic archipelagos is currently threatened by the introduction of alien species that can displace native biota, disrupt native ecological interactions, and profoundly affect community structure and stability. We investigated the threat of aliens on pollination networks in the species-rich lowlands of five Galápagos Islands. Twenty per cent of all species (60 plants and 220 pollinators) in the pooled network were aliens, being involved in 38 per cent of the interactions. Most aliens were insects, especially dipterans (36%), hymenopterans (30%) and lepidopterans (14%). These alien insects had more links than either endemic pollinators or non-endemic natives, some even acting as island hubs. Aliens linked mostly to generalized species, increasing nestedness and thus network stability. Moreover, they infiltrated all seven connected modules (determined by geographical and phylogenetic constraints) of the overall network, representing around 30 per cent of species in two of them. An astonishingly high proportion (38%) of connectors, which enhance network cohesiveness, was also alien. Results indicate that the structure of these emergent novel communities might become more resistant to certain type of disturbances (e.g. species loss), while being more vulnerable to others (e.g. spread of a disease). Such notable changes in network structure as invasions progress are expected to have important consequences for native biodiversity maintenance.

Published

2013

336. Missing and forbidden links in mutualistic networks.

Author

Olesen JM, Bascompte J, Dupont YL, Elberling H, Rasmussen C, and Jordano P

Subjects

Animals, Arctic Regions, Birds, Demography, Insecta, Mammals, Mediterranean Region, Ecosystem, Pollination physiology, Seeds physiology, Symbiosis physiology

Abstract

Ecological networks are complexes of interacting species, but not all potential links among species are realized. Unobserved links are either missing or forbidden. Missing links exist, but require more sampling or alternative ways of detection to be verified. Forbidden links remain unobservable, irrespective of sampling effort. They are caused by linkage constraints. We studied one Arctic pollination network and two Mediterranean seed-dispersal networks. In the first, for example, we recorded flower-visit links for one full season, arranged data in an interaction matrix and got a connectance C of 15 per cent. Interaction accumulation curves documented our sampling of interactions through observation of visits to be robust. Then, we included data on pollen from the body surface of flower visitors as an additional link 'currency'. This resulted in 98 new links, missing from the visitation data. Thus, the combined visit-pollen matrix got an increased C of 20 per cent. For the three networks, C ranged from 20 to 52 per cent, and thus the percentage of unobserved links (100 - C) was 48 to 80 per cent; these were assumed forbidden because of linkage constraints and not missing because of under-sampling. Phenological uncoupling (i.e. non-overlapping phenophases between interacting mutualists) is one kind of constraint, and it explained 22 to 28 per cent of all possible, but unobserved links. Increasing phenophase overlap between species increased link probability, but extensive overlaps were required to achieve a high probability. Other kinds of constraint, such as size mismatch and accessibility limitations, are briefly addressed.

Published

2011