Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes?
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2022 |
| Tipo de documento: | Tese |
| Idioma: | eng |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da USP |
| Texto Completo: | https://www.teses.usp.br/teses/disponiveis/21/21134/tde-16092022-103936/ |
Resumo: | Sandy beaches are coastal ecosystems largely appreciated by human society. The distribution and structure of beach biodiversity and its interaction with the physical environment are essential components for the beach\'s functioning and the provision of ecosystem services. However, sandy beaches are also vulnerable to multiple threats such as climate changes and urban development, pressures that jeopardize their biodiversity. In the present contribution, we test the effects of multiple environmental changes on beach biodiversity\'s behavior, distribution, structure, and ecological relationships. With this goal, we carried out a series of small-scale field experiments on the beaches of the northern coast of São Paulo, Brazil. We explored the effects of flooding, salinity reduction, coastal armoring (i.e., backshore seawalls), and the increase of storm-stranded debris (i.e., wrack) on the beach ecosystem. We tested the responses of benthic macrofauna to these pressures by evaluating the behavior of species, the taxonomic and functional richness of communities, their abundance and biomass, as well as their function as prey for birds. We found that simulated flooding induces the downward vertical displacement of polychaetes (i.e., Scolelepis) and isopods (i.e., Excirolana armata), changing the macrofauna distribution in the sediment column. We also noted a weaker downward displacement with freshwater than with saltwater floods for E. armata, suggesting a salinity influence on the behavior of this isopod. Salinity reductions also decreased the community richness and the probability of polychaetes forming high-abundance patches (mainly Scolelepis patches) close to freshwater streams on the beach. Coastal armoring, in turn, reduced the abundance and biomass of beach macrofaunal assemblages and influenced their composition and functional structure. Particularly, the abundance of subtidal polychaetes and molluscans, the abundance and biomass of the coleopteran Phaleria testacea, and the occurrence of predators and large body size species (> 80mm) were the patterns most impacted by coastal armoring. The coleopteran P. testacea is also the main species affected by the storm-stranded debris, presenting aggregations under wrack. However, there was no evidence that such aggregation could work as a prey hotspot for birds in the short term, considering the study area. Additionally, these aggregations under wrack were a phenomenon strongly associated with natural debris (i.e., algae and leaves), not occurring in plastic debris. We conclude that the macrobenthic biodiversity of the sandy beaches studied is sensitive to environmental changes, especially flooding events, salinity reductions, urban development, and changes in the storm-stranded wrack. The biodiversity changes evidenced here can induce, in the long-term, important ecosystem impacts on the functioning of beaches, which should be further assessed. Finally, we argue that the use of small-scale approaches can be important tools for conservation, generating early proxies (i.e., sublethal biological indicators, such as vertical displacement), useful to improve the assessment of future scenarios and monitoring programs. |
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Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes?Efeitos de mudanças ambientais na biodiversidade de praias arenosas: o que podemos aprender com padrões e processos de pequena escala?BenthicBentosClimate changesExperimentos em campoField experimentsMacrofaunaMacrofaunaMudanças climáticasSandy beaches are coastal ecosystems largely appreciated by human society. The distribution and structure of beach biodiversity and its interaction with the physical environment are essential components for the beach\'s functioning and the provision of ecosystem services. However, sandy beaches are also vulnerable to multiple threats such as climate changes and urban development, pressures that jeopardize their biodiversity. In the present contribution, we test the effects of multiple environmental changes on beach biodiversity\'s behavior, distribution, structure, and ecological relationships. With this goal, we carried out a series of small-scale field experiments on the beaches of the northern coast of São Paulo, Brazil. We explored the effects of flooding, salinity reduction, coastal armoring (i.e., backshore seawalls), and the increase of storm-stranded debris (i.e., wrack) on the beach ecosystem. We tested the responses of benthic macrofauna to these pressures by evaluating the behavior of species, the taxonomic and functional richness of communities, their abundance and biomass, as well as their function as prey for birds. We found that simulated flooding induces the downward vertical displacement of polychaetes (i.e., Scolelepis) and isopods (i.e., Excirolana armata), changing the macrofauna distribution in the sediment column. We also noted a weaker downward displacement with freshwater than with saltwater floods for E. armata, suggesting a salinity influence on the behavior of this isopod. Salinity reductions also decreased the community richness and the probability of polychaetes forming high-abundance patches (mainly Scolelepis patches) close to freshwater streams on the beach. Coastal armoring, in turn, reduced the abundance and biomass of beach macrofaunal assemblages and influenced their composition and functional structure. Particularly, the abundance of subtidal polychaetes and molluscans, the abundance and biomass of the coleopteran Phaleria testacea, and the occurrence of predators and large body size species (> 80mm) were the patterns most impacted by coastal armoring. The coleopteran P. testacea is also the main species affected by the storm-stranded debris, presenting aggregations under wrack. However, there was no evidence that such aggregation could work as a prey hotspot for birds in the short term, considering the study area. Additionally, these aggregations under wrack were a phenomenon strongly associated with natural debris (i.e., algae and leaves), not occurring in plastic debris. We conclude that the macrobenthic biodiversity of the sandy beaches studied is sensitive to environmental changes, especially flooding events, salinity reductions, urban development, and changes in the storm-stranded wrack. The biodiversity changes evidenced here can induce, in the long-term, important ecosystem impacts on the functioning of beaches, which should be further assessed. Finally, we argue that the use of small-scale approaches can be important tools for conservation, generating early proxies (i.e., sublethal biological indicators, such as vertical displacement), useful to improve the assessment of future scenarios and monitoring programs.Praias arenosas são ecossistemas altamente apreciados pela humanidade. A distribuição e estrutura da biodiversidade praial, bem como sua interação com o meio físico, são componentes indispensáveis para o funcionamento das praias e sua provisão de serviços ecossistêmicos. Contudo, praias arenosas são vulneráveis às mudanças climáticas e à urbanização, pressões que ameaçam sua biodiversidade. Na presente contribuição, testamos os efeitos de múltiplas mudanças ambientais no comportamento, distribuição, estrutura e relações ecológicas da biodiversidade praial. Com esse objetivo, realizamos uma série de experimentos de campo, em pequena escala, nas praias do litoral norte de São Paulo, Brasil. Exploramos os efeitos de inundações, da redução da salinidade, de estruturas urbanas costeiras e do aumento de detritos de tempestades nas praias. Testamos as respostas da macrofauna bentônica frente a essas pressões avaliando o comportamento de espécies, a riqueza taxonômica e funcional de comunidades, sua abundância e biomassa, assim como sua função como presas para aves. Descobrimos que inundações simuladas induzem o deslocamento vertical descendente de poliquetas (i.e., Scolelepis) e isópodes (i.e., Excirolana armata), alterando sua distribuição na coluna de sedimento. Para E. armata, tal deslocamento é menor em inundações de água doce do que de água salgada, sugerindo uma influência da salinidade no comportamento deste isópode. Reduções de salinidade também diminuem a riqueza da comunidade e a probabilidade de poliquetas formarem manchas (principalmente Scolelepis) próximo a córregos de entrada de água doce nas praias. As estruturas urbanas (i.e., muros de casas no supralitoral), por sua vez, reduziram a abundância e biomassa da macrofauna, influenciando também sua composição e estrutura funcional. Em particular, a abundância de poliquetas e moluscos no infralitoral, a abundância e biomassa do coleóptero Phaleria testacea e a ocorrência de predadores e espécies de grande porte (> 80mm) foram os padrões mais impactados pelas estruturas urbanas. P. testacea também foi a espécie mais afetada pelos detritos de tempestade, apresentando agregações nos detritos, embora não tenhamos encontrado evidencias de que tal agregação funcione como uma fonte de presas para aves em curto prazo na área estudada. Ademais, tal agregação foi um fenômeno fortemente associado aos detritos naturais (i.e., algas e folhas), não ocorrendo em detritos plásticos. Concluímos que a macrofauna bentônica das praias estudadas é sensível a múltiplas mudanças ambientais, como inundações, mudanças de salinidade, urbanização e alterações no aporte de detritos de tempestade. Os efeitos que notamos na biodiversidade podem desencadear, em longo prazo, importantes impactos ecossistêmicos no funcionamento das praias, os quais devem ser posteriormente avaliados. Por fim, defendemos que o uso de abordagens de pequena escala podem ser importantes ferramentas para a conservação, gerando indicadores precoces, subletais (e.g., deslocamento vertical), úteis para aprimorar a avaliação de cenários futuros e programas de monitoramento.Biblioteca Digitais de Teses e Dissertações da USPTurra, AlexanderLaurino, Ivan Rodrigo Abrão2022-07-15info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisapplication/pdfhttps://www.teses.usp.br/teses/disponiveis/21/21134/tde-16092022-103936/reponame:Biblioteca Digital de Teses e Dissertações da USPinstname:Universidade de São Paulo (USP)instacron:USPLiberar o conteúdo para acesso público.info:eu-repo/semantics/openAccesseng2022-10-05T19:49:43Zoai:teses.usp.br:tde-16092022-103936Biblioteca Digital de Teses e Dissertaçõeshttp://www.teses.usp.br/PUBhttp://www.teses.usp.br/cgi-bin/mtd2br.plvirginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.bropendoar:27212022-10-05T19:49:43Biblioteca Digital de Teses e Dissertações da USP - Universidade de São Paulo (USP)false |
| dc.title.none.fl_str_mv |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? Efeitos de mudanças ambientais na biodiversidade de praias arenosas: o que podemos aprender com padrões e processos de pequena escala? |
| title |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| spellingShingle |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? Laurino, Ivan Rodrigo Abrão Benthic Bentos Climate changes Experimentos em campo Field experiments Macrofauna Macrofauna Mudanças climáticas |
| title_short |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| title_full |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| title_fullStr |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| title_full_unstemmed |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| title_sort |
Effects of environmental changes on sandy beach biodiversity: what we can learn with small-scale patterns and processes? |
| author |
Laurino, Ivan Rodrigo Abrão |
| author_facet |
Laurino, Ivan Rodrigo Abrão |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Turra, Alexander |
| dc.contributor.author.fl_str_mv |
Laurino, Ivan Rodrigo Abrão |
| dc.subject.por.fl_str_mv |
Benthic Bentos Climate changes Experimentos em campo Field experiments Macrofauna Macrofauna Mudanças climáticas |
| topic |
Benthic Bentos Climate changes Experimentos em campo Field experiments Macrofauna Macrofauna Mudanças climáticas |
| description |
Sandy beaches are coastal ecosystems largely appreciated by human society. The distribution and structure of beach biodiversity and its interaction with the physical environment are essential components for the beach\'s functioning and the provision of ecosystem services. However, sandy beaches are also vulnerable to multiple threats such as climate changes and urban development, pressures that jeopardize their biodiversity. In the present contribution, we test the effects of multiple environmental changes on beach biodiversity\'s behavior, distribution, structure, and ecological relationships. With this goal, we carried out a series of small-scale field experiments on the beaches of the northern coast of São Paulo, Brazil. We explored the effects of flooding, salinity reduction, coastal armoring (i.e., backshore seawalls), and the increase of storm-stranded debris (i.e., wrack) on the beach ecosystem. We tested the responses of benthic macrofauna to these pressures by evaluating the behavior of species, the taxonomic and functional richness of communities, their abundance and biomass, as well as their function as prey for birds. We found that simulated flooding induces the downward vertical displacement of polychaetes (i.e., Scolelepis) and isopods (i.e., Excirolana armata), changing the macrofauna distribution in the sediment column. We also noted a weaker downward displacement with freshwater than with saltwater floods for E. armata, suggesting a salinity influence on the behavior of this isopod. Salinity reductions also decreased the community richness and the probability of polychaetes forming high-abundance patches (mainly Scolelepis patches) close to freshwater streams on the beach. Coastal armoring, in turn, reduced the abundance and biomass of beach macrofaunal assemblages and influenced their composition and functional structure. Particularly, the abundance of subtidal polychaetes and molluscans, the abundance and biomass of the coleopteran Phaleria testacea, and the occurrence of predators and large body size species (> 80mm) were the patterns most impacted by coastal armoring. The coleopteran P. testacea is also the main species affected by the storm-stranded debris, presenting aggregations under wrack. However, there was no evidence that such aggregation could work as a prey hotspot for birds in the short term, considering the study area. Additionally, these aggregations under wrack were a phenomenon strongly associated with natural debris (i.e., algae and leaves), not occurring in plastic debris. We conclude that the macrobenthic biodiversity of the sandy beaches studied is sensitive to environmental changes, especially flooding events, salinity reductions, urban development, and changes in the storm-stranded wrack. The biodiversity changes evidenced here can induce, in the long-term, important ecosystem impacts on the functioning of beaches, which should be further assessed. Finally, we argue that the use of small-scale approaches can be important tools for conservation, generating early proxies (i.e., sublethal biological indicators, such as vertical displacement), useful to improve the assessment of future scenarios and monitoring programs. |
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2022 |
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2022-07-15 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/doctoralThesis |
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https://www.teses.usp.br/teses/disponiveis/21/21134/tde-16092022-103936/ |
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eng |
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eng |
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Liberar o conteúdo para acesso público. info:eu-repo/semantics/openAccess |
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Liberar o conteúdo para acesso público. |
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Biblioteca Digitais de Teses e Dissertações da USP |
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