Your search keyword '"Saito, Victor S."' showing total 3 results

1. The relationships between biotic uniqueness and abiotic uniqueness are context dependent across drainage basins worldwide

Author

Ecologia, Snare, Henna, García Girón, Jorge, Alahuhta, Janne, Bini, Luis Mauricio, Boda, Pál, Bonada Caparrós, Nuria, Brasil, Leandro S., Callisto, Marcos, Castro, Diego M. P., Chen, Kai, Csabai, Zoltán, Datry, Thibault, Domisch, Sami, García Márquez, Jaime R., Floury, Mathieu, Friberg, Nikolai, Gill, Brian A., González Trujillo, Juan David, Göthe, Emma, Haase, Peter, Hamada, Neusa, Hill, Mathew J., Hjort, Jan, Juen, Leandro, Jupke, Jonathan F., de Faria, Ana Paula Justino, Li, Zhengfei, Ligeiro, Raphael, Linares, Marden S., Luiza Andrade, Ana, Macedo, Diego R., Mathers, Kate L., Mellado Díaz, Andrés, Milosevic, Djuradj, Moya, Nabor, Poff, N. LeRoy, Rolls, Robert J., Roque, Fabio O., Saito, Victor S., Sandin, Leonard, Schäfer, Ralf B., Scotti, Alberto, Siqueira, Tadeu, Martins, Renato Tavares, Valente Neto, Francisco, Wang, Beixin, Wang, Jun, Xie, Zhicai, Heino, Jani, Ecologia, Snare, Henna, García Girón, Jorge, Alahuhta, Janne, Bini, Luis Mauricio, Boda, Pál, Bonada Caparrós, Nuria, Brasil, Leandro S., Callisto, Marcos, Castro, Diego M. P., Chen, Kai, Csabai, Zoltán, Datry, Thibault, Domisch, Sami, García Márquez, Jaime R., Floury, Mathieu, Friberg, Nikolai, Gill, Brian A., González Trujillo, Juan David, Göthe, Emma, Haase, Peter, Hamada, Neusa, Hill, Mathew J., Hjort, Jan, Juen, Leandro, Jupke, Jonathan F., de Faria, Ana Paula Justino, Li, Zhengfei, Ligeiro, Raphael, Linares, Marden S., Luiza Andrade, Ana, Macedo, Diego R., Mathers, Kate L., Mellado Díaz, Andrés, Milosevic, Djuradj, Moya, Nabor, Poff, N. LeRoy, Rolls, Robert J., Roque, Fabio O., Saito, Victor S., Sandin, Leonard, Schäfer, Ralf B., Scotti, Alberto, Siqueira, Tadeu, Martins, Renato Tavares, Valente Neto, Francisco, Wang, Beixin, Wang, Jun, Xie, Zhicai, and Heino, Jani

Abstract

[EN] Context: Global change, including land-use change and habitat degradation, has led to a decline in biodiversity, more so in freshwater than in terrestrial ecosystems. However, the research on freshwaters lags behind terrestrial and marine studies, highlighting the need for innovative approaches to comprehend freshwater biodiversity. Objectives: We investigated patterns in the relationships between biotic uniqueness and abiotic environmental uniqueness in drainage basins worldwide. Methods: We compiled high-quality data on aquatic insects (mayflies, stoneflies, and caddisflies at genus-level) from 42 drainage basins spanning four continents. Within each basin we calculated biotic uniqueness (local contribution to beta diversity, LCBD) of aquatic insect assemblages, and four types of abiotic uniqueness (local contribution to environmental heterogeneity, LCEH), categorized into upstream land cover, chemical soil properties, stream site landscape position, and climate. A mixed-effects meta-regression was performed across basins to examine variations in the strength of the LCBD-LCEH relationship in terms of latitude, human footprint, and major continental regions (the Americas versus Eurasia). Results: On average, relationships between LCBD and LCEH were weak. However, the strength and direction of the relationship varied among the drainage basins. Latitude, human footprint index, or continental location did not explain significant variation in the strength of the LCBD-LCEH relationship. Conclusions: We detected strong context dependence in the LCBD-LCEH relationship across the drainage basins. Varying environmental conditions and gradient lengths across drainage basins, land-use change, historical contingencies, and stochastic factors may explain these findings. This context dependence underscores the need for basin-specific management practices to protect the biodiversity of riverine systems

2. Catchment scale deforestation increases the uniqueness of subtropical stream communities.

Author

Schneck F, Bini LM, Melo AS, Petsch DK, Saito VS, Wengrat S, and Siqueira T

Subjects

Agriculture, Animals, Forests, Insecta, Conservation of Natural Resources, Rivers

Abstract

Local communities and individual species jointly contribute to the overall beta diversity in metacommunities. However, it is mostly unknown whether the local contribution (LCBD) and the species contribution (SCBD) to beta diversity can be predicted by local and regional environmental characteristics and by species traits and taxonomic relatedness, respectively. We investigated the LCBD and SCBD of stream benthic diatoms and insects along a gradient of land use intensification, ranging from streams in pristine forests to agricultural catchments in southeast subtropical Brazil. We expected that the LCBD would be negatively related to forest cover and positively related to the most unique streams in terms of environmental characteristics and land use (hereafter environmental and land use uniqueness, respectively). We also expected that species with a high SCBD would occur at sites with reduced forest cover. We found that the LCBD of diatoms and insects was negatively related to forest cover. The LCBD of insects was also positively related to environmental and land use uniqueness. As forest cover was negatively related to uniqueness in land use, biologically unique streams were those that deviated from the typical regional land cover. We also found that diatom traits, insect traits, and taxonomic relatedness partly explained SCBD. Furthermore, the SCBD of diatoms was positively correlated with forest cover, but the inverse was found for insects. We showed that deforestation creates novel and unique communities in subtropical streams and that species that contribute the most to beta diversity can occur at opposite ends of a land use gradient., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

3. Phylogenetic clustering among aggressive competitors: evidence from odonate assemblages along a riverine gradient.

Author

Saito VS, Valente-Neto F, Rodrigues ME, de Oliveira Roque F, and Siqueira T

Subjects

Animals, Cluster Analysis, Ecosystem, Rivers, Insecta, Phylogeny

Abstract

Studies on phylogenetic community ecology usually infer habitat filtering when communities are phylogenetically clustered or competitive exclusion when communities are overdispersed. This logic is based on strong competition and niche similarity among closely related species-a less common phenomenon than previously expected. Dragonflies and damselflies are good models for testing predictions based on this logic because they behave aggressively towards related species due to mistaken identification of conspecifics. This behavior may drive communities toward phylogenetic overdispersion if closely related species frequently exclude each other. However, phylogenetically clustered communities could also be observed if habitat filtering and/or competitive asymmetry among distantly related species are major drivers of community assembling. We investigated the phylogenetic structure of odonate assemblages in central Brazil in a watershed characterized by variations in stream width, vegetation cover, aquatic vegetation, and luminosity. We observed general clustering in communities according to two indices of phylogenetic structure. Phylogenetic beta diversity coupled with Mantel tests and RLQ analysis evidenced a correlation between the riverine gradient and phylogenetic structure. Larger rivers with aquatic vegetation were characterized by anisopterans, while most zygopterans stayed in small and shaded streams. These results indicate niche conservatism in Odonata habitat occupancy, and that the environment is a major influence on the phylogenetic structure of these communities. We suggest that this is due to clade-specific ecophysiological requirements, and because closely related species may also have competitive advantages and dominate certain preferred habitats.

Published

2016