The Evolution and Pollination of Oceanic Bellflowers (Campanulaceae)

Alarcón, María Luisa; Aldasoro, Juan José; Roquet, Cristina; Olesen, Jens M.

doi:10.1007/978-3-319-07623-2_14

Cited by 19 publications

(1 citation statement)

References 68 publications

(73 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Insular ecosystems usually support less complex networks with lower numbers of pollinator species, are mostly comprised of generalist species (Olesen et al ., ; Whittaker & Fernández‐Palacios, ) and have less redundancy between species in comparison with continental areas (Olesen et al ., ). Thus, pollinator networks on oceanic islands are potentially highly vulnerable to any kind of disturbance (Traveset, ), and can be considered ideal model systems to evaluate the impact of land‐use change on the diversity, distribution and abundance of pollinator species (Alarcón et al ., ; Castro‐Urgal & Traveset, ; Kaiser‐Bunbury & Blüthgen, ; Traveset et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Impact of land‐use change on flower‐visiting insect communities on an oceanic island

Picanço

Rigal

Matthews

et al. 2017

Insect Conserv Diversity

View full text Add to dashboard Cite

Land‐use change has profoundly impacted pollinator communities throughout the world. However, the processes through which it acts on pollinator diversity and composition are still poorly understood, especially in highly vulnerable island ecosystems. In this study, we investigated the distribution, abundance, richness and composition of flower‐visiting insects to assess their response to land‐use change in Terceira Island (Azores). Flower‐visiting insects were sampled over 2 years using a standardised protocol along 50 transects across five different habitats corresponding to a land‐use gradient. Insect species were classified as indigenous or exotics. We assessed changes across habitats using multiple diversity indices, species abundance distribution models (SAD) and species composition metrics (β‐diversity), along with plant species composition. We observed that indigenous flower‐visiting insects were dominant, both in abundance and species richness, across the entire land‐use gradient. Species diversity varied only slightly across the gradient. SADs were lognormal in all habitats, with very few truly common and rare flower‐visiting insects and a prevalence of species of intermediate abundance. Species replacement was significantly higher mainly between the two most contrasting habitats (i.e. natural forests and intensive pastures) but was significantly correlated with species replacement of host plant species across the gradient. Our results revealed that the Azorean flower‐visiting insect communities were highly simplified across the entire gradient with little difference between habitats. In the absence of strong exotic competitors, indigenous flower‐visiting insects expand their range and occupy new anthropogenic habitats, also facilitating the expansion of a large number of exotic plant species.

show abstract

Section: Introductionmentioning

confidence: 99%

Impact of land‐use change on flower‐visiting insect communities on an oceanic island

Picanço

Rigal

Matthews

et al. 2017

Insect Conserv Diversity

View full text Add to dashboard Cite

show abstract

Island Biogeography

Whittaker

Fernández‐Palacios

Matthews

2023

View full text Add to dashboard Cite

Island Biogeography: Geo-environmental Dynamics, Ecology, Evolution, Human Impact, and Conservation provides a synthetic review covering islands as model systems in the life sciences. It is centred on the study of the geographical distribution of biodiversity and how it changes through time, understood through the medium of island biotas and ecosystems. It comprises four parts devoted in turn to: island environments; ecology; evolution; and human impact and conservation. It describes the origins and dynamics of different island types and the key characteristics of island environments that shape their biotic characteristics. It identifies key theories of island ecology and reviews progress towards their evaluation and development. It sets out the essential building blocks of island evolution and the emergent patterns of insular endemism and of island evolutionary syndromes in animals and plants. It reviews how island geo-environmental dynamics are of crucial relevance to understanding and developing improved explanatory and predictive models of their ecological and evolutionary dynamics. It reviews the application of island theory to fragmented ecosystems. It describes the spread of human societies across the islands of the world and the impact of these and subsequent human colonization events on the environments, biotas, and sustainability of societies on islands. It reviews evidence of anthropogenic extinction on islands, identifying key extinction drivers and threats to existing native species and ecosystems, and ways in which island evolution may make island species particularly vulnerable to certain external influences. It considers the distinctive conservation challenges and solutions that may be effective on islands.

show abstract

Copyright Page

2023

Island Biogeography

View full text Add to dashboard Cite

The Evolution and Pollination of Oceanic Bellflowers (Campanulaceae)

Cited by 19 publications

References 68 publications

Impact of land‐use change on flower‐visiting insect communities on an oceanic island

Impact of land‐use change on flower‐visiting insect communities on an oceanic island

Island Biogeography

Copyright Page

Contact Info

Product

Resources

About