Ecological networks in savannas reflect different levels of hydric stress in adjacent palm swamp forest ecosystems

Palm swamp forests are wetland ecosystems typical of the Brazilian Cerrado, which in recent decades have undergone intense changes due to land use alterations and climate change. As a result of these disturbances, many palm swamps have been experiencing significant drying, which can also affect adja...

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Bibliographic Details
Published in:Scientific reports 2024-09, Vol.14 (1), p.21317-9, Article 21317
Main Authors: de Araújo, Walter Santos, Silveira, Luana Teixeira
Format: Article
Language:English
Subjects:
631/158/2450
631/158/2463
631/158/853
Anthropogenic disturbances
Aquatic ecosystems
Arecaceae - physiology
Brazil
Climate Change
Drying
Ecological interactions
Ecosystem
Ecosystems
Environmental changes
Environmental impact
Forest ecosystems
Forests
Grassland
Herbivores
Herbivory - physiology
Humanities and Social Sciences
Land use
multidisciplinary
Nature conservation
Savannahs
Science
Science (multidisciplinary)
Stress, Physiological
Swamps
Terrestrial ecosystems
Topology
Vegetation
Veredas
Wetland drying
Wetlands
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Summary:Palm swamp forests are wetland ecosystems typical of the Brazilian Cerrado, which in recent decades have undergone intense changes due to land use alterations and climate change. As a result of these disturbances, many palm swamps have been experiencing significant drying, which can also affect adjacent vegetation. In the present study, we evaluated whether the drying of palm swamps affects the structure of plant–herbivore networks located in adjacent savanna areas in Brazil. Our results show that savanna areas adjacent to dry zones of palm swamps have fewer interactions, fewer interacting species, and a less specialized topology, which corroborates our expectations. Our findings indicate that the drying of palm swamps also has propagated impacts on adjacent savanna vegetation, impairing more specialized interactions in these environments. On the other hand, contrary to expectations, plant–herbivore networks in dry zones displayed higher modularity, lower nestedness and lower robustness than those in wet zones, suggesting that in dry environments, species tend to compartmentalize their interactions, even with lower interaction specialization. This is the first study to investigate the impacts of environmental drying on the structure of plant–herbivore networks in tropical ecosystems, highlighting the complexity of these effects and their differential impact on specialized and generalized interactions. Understanding these dynamics is crucial for developing effective conservation and management strategies in the face of ongoing environmental changes.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-72479-9