18 results on '"Heino, Jani"'
Search Results
2. Differently dispersing organism groups show contrasting beta diversity patterns in a dammed subtropical river basin.
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Lansac-Tôha, Fernando M., Heino, Jani, Quirino, Bárbara A., Moresco, Geovani A., Peláez, Oscar, Meira, Bianca R., Rodrigues, Luzia C., Jati, Susicley, Lansac-Tôha, Fábio A., and Velho, Luiz Felipe M.
- Abstract
Although it is widely known that dams can have large impacts on the environmental and biological characteristics of downstream rivers, there is a substantial lack of studies focusing on which ecological processes cause longitudinal changes in biological communities downstream of reservoirs. We investigated longitudinal patterns in the total beta diversity and its replacement and richness difference components for actively (fish) and passively (phytoplankton) dispersing biological groups. Our results, obtained from a 230 km sampling stretch, demonstrated the key role played by tributaries in the downstream direction from main river impoundment, which influenced local environmental conditions and beta diversity patterns of each biological group. Both replacement and richness difference contributed to high values of total beta diversity for fish (average = 0.77) and phytoplankton (average = 0.79), but their relative importance was more associated with the replacement component for both biological groups (average = 0.45 and 0.52, respectively). Moreover, we observed clear differences between fish and phytoplankton in beta diversity patterns operating at small and broad scales, as well as in the mechanisms driving each beta diversity component. Directional dispersal-related processes and environmental filtering played a major role in shaping total beta diversity and its components for fish, while temporal factors explained considerable parts of phytoplankton beta diversity. Our findings contributed to understanding of tributary-induced heterogeneity and highlight the importance of dam-free stretches of rivers for preserving the integrity of dammed river basins. Unlabelled Image • We investigated longitudinal patterns of fish and phytoplankton in a dammed river. • Beta diversity was mostly contributed by species replacement for both biological groups. • Tributaries tended to be environmentally and compositionally different from main river sites. • Differences found showed that multiple taxa are recommended in assessing human disturbance. • Preserving dam-free stretches of rivers should be a priority for the integrity of dammed rivers. [ABSTRACT FROM AUTHOR]
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- 2019
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3. Rarity in freshwater vascular plants across Europe and North America: Patterns, mechanisms and future scenarios.
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García-Girón, Jorge, Heino, Jani, Iversen, Lars Lønsmann, Helm, Aveliina, and Alahuhta, Janne
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- 2021
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4. Global patterns and determinants of lake macrophyte taxonomic, functional and phylogenetic beta diversity.
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García-Girón, Jorge, Heino, Jani, Baastrup-Spohr, Lars, Bove, Claudia P., Clayton, John, de Winton, Mary, Feldmann, Tõnu, Fernández-Aláez, Margarita, Ecke, Frauke, Grillas, Patrick, Hoyer, Mark V., Kolada, Agnieszka, Kosten, Sarian, Lukács, Balázs A., Mjelde, Marit, Mormul, Roger P., Rhazi, Laila, Rhazi, Mouhssine, Sass, Laura, and Xu, Jun
- Abstract
Documenting the patterns of biological diversity on Earth has always been a central challenge in macroecology and biogeography. However, for the diverse group of freshwater plants, such research program is still in its infancy. Here, we examined global variation in taxonomic, functional and phylogenetic beta diversity patterns of lake macrophytes using regional data from six continents. A data set of ca. 480 lake macrophyte community observations, together with climatic, geographical and environmental variables, was compiled across 16 regions worldwide. We (a) built the very first phylogeny comprising most freshwater plant lineages; (b) exploited a wide array of functional traits that are important to macrophyte autoecology or that relate to lake ecosystem functioning; (c) assessed if different large-scale beta diversity patterns show a clear latitudinal gradient from the equator to the poles using null models; and (d) employed evolutionary and regression models to first identify the degree to which the studied functional traits show a phylogenetic signal, and then to estimate community-environment relationships at multiple spatial scales. Our results supported the notion that ecological niches evolved independently of phylogeny in macrophyte lineages worldwide. We also showed that taxonomic and phylogenetic beta diversity followed the typical global trend with higher diversity in the tropics. In addition, we were able to confirm that species, multi-trait and lineage compositions were first and foremost structured by climatic conditions at relatively broad spatial scales. Perhaps more importantly, we showed that large-scale processes along latitudinal and elevational gradients have left a strong footprint in the current diversity patterns and community-environment relationships in lake macrophytes. Overall, our results stress the need for an integrative approach to macroecology, biogeography and conservation biology, combining multiple diversity facets at different spatial scales. Unlabelled Image • We are beginning to estimate global determinants of macrophyte diversity patterns. • We examine variation of taxonomic, functional and phylogenetic beta diversity. • Taxonomic and phylogenetic beta diversity is higher in the tropics. • Functional traits evolve independently of phylogeny in macrophytes worldwide. • Latitude and elevational gradients left a strong footprint in beta diversity. [ABSTRACT FROM AUTHOR]
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- 2020
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5. Land conversion induced by urbanization leads to taxonomic and functional homogenization of a river macroinvertebrate metacommunity.
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Liu, Zhenyuan, Zhou, Tingting, Heino, Jani, Castro, Diego M.P., Cui, Yongde, Li, Zhengfei, Wang, Weimin, Chen, Yushun, and Xie, Zhicai
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- 2022
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6. Consequences of hydrological alteration for beta diversity of fish assemblages at multiple spatial scales.
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Rolls, Robert J., Chessman, Bruce C., Heino, Jani, Wolfenden, Ben, Growns, Ivor O., Cheshire, Katherine J.M., Curwen, Graeme, Ryan, David, and Butler, Gavin L.
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- 2021
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7. The longest fragment drives fish beta diversity in fragmented river networks: Implications for river management and conservation.
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Díaz, Gustavo, Górski, Konrad, Heino, Jani, Arriagada, Pedro, Link, Oscar, and Habit, Evelyn
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Connectivity plays a crucial role in maintaining the structural and functional attributes of river networks. Therefore, the loss of connectivity (fragmentation) alters the functioning and diversity patterns of the biota at local and regional scales. The global hydropower boom is one of the main drivers of river network fragmentation, with significant effects on the diversity of riverine biota. Analyses of beta diversity of fish assemblages in rivers with different degrees of fragmentation can give new insights into mechanisms that contribute to the responses of these assemblages to fragmentation. Here, fish beta diversity within six river networks of central Chile with different levels of fragmentation was studied to assess the responses of fish assemblages to fragmentation. A hypothesis of a significant effect of fragmentation on the beta diversity of native and non-native fish in riffles and pools was tested. This effect is expected to be modulated by both changes in environmental heterogeneity and direct obstruction of natural dispersal routes. Beta diversity based on variation of assemblage structure and environmental heterogeneity showed significant differences among river networks. Fish beta diversity showed a clear response to fragmentation in recently fragmented rivers. Specifically, the beta diversity of native fishes in pools and non-native fishes in riffles decreased with increase of the ratio between the longest non-fragmented sections of the river network to the total length of the network. These effects of fragmentation on fish assemblages were modulated by the biological features of each species, and open-water species were most severely affected. These results have significant implications for planning of the placement of new barriers in river networks subjected to hydropower boom. Planning of the placement of new barriers should consider the maintenance of long, connected sections within river networks in order to minimise the effects of fragmentation on fish biodiversity. Unlabelled Image • River fragmentation is a major threat to freshwater biodiversity. • Current hydropower boom is expected to increase river fragmentation worldwide. • Fish beta diversity is driven by the longest fragment within the river network. • Barrier planning should consider long river fragments to preserve fish diversity. [ABSTRACT FROM AUTHOR]
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- 2021
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8. Discriminating the effects of local stressors from climatic factors and dispersal processes on multiple biodiversity dimensions of macroinvertebrate communities across subtropical drainage basins.
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Li, Zhengfei, Liu, Zhenyuan, Heino, Jani, Jiang, Xiaoming, Wang, Jun, Tang, Tao, and Xie, Zhicai
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• We tested ecological drivers of biodiversity indices across subtropical rivers. • Local environmental stressors were more important than the other factor groups. • Taxonomic distinctness indices performed best in portraying human disturbances. • Species and functional diversity indices were also related to climatic and spatial factors. • Bioassessment should consider various factors causing variation in bio-indicators. Metacommunity ecology emphasizes that community structure and diversity are not only determined by local environmental conditions through environmental filtering, but also by dispersal-related processes, such as mass effects, dispersal limitation and patch dynamics. However, the roles of dispersal processes are typically ignored in bioassessment approaches. Here, we simultaneously explored the potential influences of four groups of factors: local stressors, climatic factors, within-basin spatial factors and basin identity in explaining variation in diversity indices of macroinvertebrate assemblages from seven subtropical tributary rivers. A total of 12 biodiversity indices based on species identities, functional traits and taxonomic relatedness were calculated and used in the subsequent statistical analysis. Our results showed that, although differing in their relative importance, the four explanatory factor groups all played important roles in explaining variation in biodiversity indices. Of the pure fractions, index variation was best explained by local environmental stressors, whereas the other three explanatory factor groups appeared less influential. Furthermore, diversity indices from species, functional and taxonomic dimensions responded distinctly to the focal ecological factors, and differed in their abilities to portray the effects of human disturbances on macroinvertebrate communities. Taxonomic distinctness indices performed best, with the highest amount of variation associated to local stressors and hardly any variation explained by other factors, implying that these indices are robust in portraying human disturbances in streams. However, species diversity and functional diversity indices were also affected by spatial processes and climatic factors, suggesting that these indices should be used with caution in bioassessment. We hence conclude that environmental assessment of riverine ecosystems should not rely entirely on the perspective of species sorting. In contrast, both roles of spatial processes and environmental variables related to human disturbances and climatic variation should be incorporated in management and conservation of riverine ecosystems. [ABSTRACT FROM AUTHOR]
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- 2020
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9. Can taxonomic and functional metrics explain variation in the ecological uniqueness of ecologically-associated animal groups in a modified rainforest?
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da Silva, Pedro Giovâni, Bogoni, Juliano André, and Heino, Jani
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• Ecological uniqueness shows the degree of uniqueness of samples in terms of composition. • Ecological uniqueness is measured by the local contribution of sites to β-diversity. • Taxonomic and functional features can predict variation in ecological uniqueness. • Ecological uniqueness can be explained by functional features at large spatial extents. • The type of functional metrics' response may be specific to mammals or dung beetles. The conservation of biodiversity requires adequate information about species and ecosystem attributes. The local contribution to β-diversity (LCBD) is a community composition-based metric of ecological uniqueness of sites. Here, we tested the capability of taxonomic and functional attributes of biological communities to explain variation in LCBD at a large spatial extent. We approached this idea using data on dung beetles and mammals (medium-to-large, small and volant) recorded across the Atlantic Forest of South America due to their millennial-scale evolutionary relationship (food providers and consumers). We related LCBD values to both taxonomic and functional metrics via beta regression. Our results revealed that taxonomic and functional features of assemblages can be used to predict variation in ecological uniqueness (LCBD). High LCBD values were associated with low species and functional richness for all animal groups. For dung beetles, high LCBD values were associated with low values of all functional metrics. For mammalian groups high ecological uniqueness was associated with low abundance, low Rao's quadratic entropy, as well as high functional divergence, functional evenness, functional originality, and either low or high functional specialization. This implies that variation in ecological uniqueness can be explained by functional features at large spatial extents, although the type of functional metrics' response of assemblages may be animal group specific. The potential of the LCBD metric to inform about both taxonomic and functional changes at large scales makes its use in conservation planning a highly promising approach. [ABSTRACT FROM AUTHOR]
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- 2020
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10. Different roles for geography, energy and environment in determining three facets of freshwater molluscan beta diversity at broad spatial scales.
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Cai, Yongjiu, Xu, Jun, Zhang, Min, Wang, Jianjun, and Heino, Jani
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Abstract Current understanding of different facets of beta diversity and their underlying determinants remains limited at broad scales in the freshwater realm. We examined the geographical patterns and spatial congruence of three beta diversity facets of freshwater molluscs across all of China, and evaluated the relative importance of environmental and spatial factors underlying the observed patterns. Taxonomic (β-TD), functional (β-FD) and phylogenetic (β-PD) beta diversity were calculated for 212 drainage basins belonging to 10 hydrographic regions using compiled occurrence data of 313 molluscan species. Geographical patterns of the three diversity facets were visualized on maps and pairwise spatial congruence among them was evaluated using regression on distance matrices. Variation partitioning and multivariate regression trees were used to assess the relative importance of different factors underlying beta diversity patterns. Beta diversity maps revealed that geographical patterns of β-TD and β-PD showed strong spatial clustering and were well matched with hydrographic regions' boundaries, while β-FD showed only moderate spatial aggregation. The three facets were only moderately congruent, with over 60% of the variation in one facet remaining unexplained by any other facet. Remarkably, all diversity facets were best explained by the spatial factors with considerable unique effects. Environmental filtering associated with energy gradients also made a large contribution, while habitat availability only explained minor fractions of the variation in beta diversity. At the national scale, β-TD and β-PD were more strongly related to spatial processes, whereas β-FD was more strongly associated with energy gradients. Our results suggested that, for freshwater organisms with low dispersal capacity, dispersal processes may override environmental filtering in driving geographical diversity patterns. However, different ecological drivers were important for each diversity facet. Importantly, rather weak spatial congruence among the different diversity facets stresses the need to incorporate functional and phylogenetic facets into the development of conservation planning. Graphical abstract Unlabelled Image Highlights • We examined patterns and drivers of freshwater molluscan biodiversity across China. • Taxonomic, functional and phylogenetic beta diversity were considered simultaneously. • The geographic patterns of the three facets diversity were only moderately congruent. • Spatial factors may override environmental filtering in driving molluscan diversity. • Different ecological drivers were important for each diversity facet. [ABSTRACT FROM AUTHOR]
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- 2019
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11. Different responses of taxonomic and functional structures of stream macroinvertebrate communities to local stressors and regional factors in a subtropical biodiversity hotspot.
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Li, Zhengfei, Wang, Jun, Liu, Zhenyuan, Meng, Xingliang, Heino, Jani, Jiang, Xuankong, Xiong, Xiong, Jiang, Xiaoming, and Xie, Zhicai
- Abstract
Abstract Examining the relative contribution of local environmental stressors and regional factors in structuring biological communities is essential for biodiversity conservation and environmental assessment, yet their relative roles for different community characterizations remain elusive. Here, we examined the responses of taxonomic and functional structures of stream macroinvertebrate communities to local and regional factors across a human-induced environmental gradient in the Han River Basin, one subtropical biodiversity hotspot in China. Our objectives were: 1) to examine the responses of traditional taxonomic measures and functional traits to anthropogenic disturbances; 2) to compare the relative importance of environmental versus spatial variables and catchment-scale versus reach-scale variables for the two community characterizations. We found that both species and trait compositions performed well in differentiating anthropogenic disturbances, indicating that both taxonomic and functional structures of macroinvertebrate communities were strongly altered by human activities. Particularly, some traits related to life history (e.g., voltinism), resilience and resistance (e.g., adult flying ability) are well suited for predicting changes of communities towards anthropogenic disturbances owing to their mechanistic relationship with environmental gradients. We found that environmental variables played more important roles than spatial effects in structuring both taxonomic and functional facets of macroinvertebrate communities. Environmental filtering was more important in determining functional than taxonomic structure, and the opposite was true for spatial effects. In terms of environmental variables, catchment land-uses played the primary role in determining taxonomic composition, whereas reach-scale variables related to local habitat heterogeneity were more influential for functional structure. Our study highlights the importance of employing metacommunity perspectives and different community characterizations in both theoretical and applied research. For stream bioassessment and management, we argue that the combination of taxonomic and functional characterizations of community should be implemented, as different facets of biological communities responded to different types of anthropogenic disturbances. Graphical abstract Percentages of variation in taxonomic and functional structure explained by environmental variables versus spatial factors (a), and catchment versus reach scale environmental variables (b). The result of (b) is a further decomposition of the variance explained by environmental variables. Unlabelled Image Highlights • We tested the responses of different community facets to stressors in headwater streams. • Local environmental stressors were more important than spatial factors. • Catchment land-uses played the primary role in determining taxonomic composition. • Reach-scale variables were more influential for functional trait structure. • Metacommunity concept and different faces of community should be considered in bioassessment. [ABSTRACT FROM AUTHOR]
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- 2019
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12. Relative roles of spatial processes, natural factors and anthropogenic stressors in structuring a lake macroinvertebrate metacommunity.
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Cai, Yongjiu, Xu, Hao, Vilmi, Annika, Tolonen, Kimmo T., Tang, Xiangming, Qin, Boqiang, Gong, Zhijun, and Heino, Jani
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INVERTEBRATES , *BENTHIC ecology , *ECOLOGICAL disturbances , *ANTHROPOGENIC effects on nature , *WATER quality biological assessment - Abstract
Studies of aquatic metacommunities have so far been focused almost entirely on relatively isolated systems, such as a set of streams, lakes or ponds. Here, we aimed to quantify the relative importance of spatial processes, natural factors and anthropogenic stressors in structuring of a macroinvertebrate metacommunity within a large, highly-connected shallow lake system. The roles of different drivers were evaluated for the entire metacommunity, 10 trait-based deconstructed metacommunities and four common species by incorporating extensive sampling and a large number of abiotic explanatory variables. Contrary to our expectations, we found that variation in community structure among sites was mostly correlated to spatial and wind-wave variables rather than anthropogenic disturbance factors even though the lake presented strong environmental gradients associated with long-term human pressures. In addition, the relative importance of the three groups of drivers varied slightly among the deconstructed trait matrices (i.e. based on dispersal ability, feeding mode and degree of occurrence). Importantly, the distributions of the most common species showed significant and strong spatial autocorrelation, indicating the prominent role of high dispersal rate for their distributions. These findings suggest that the influences of high dispersal rates and natural disturbance may even override the roles of anthropogenic stressors in metacommunity organization in highly-connected aquatic systems. Hence, we strongly encourage that spatial processes and natural drivers are taken into account in the development of bioassessment approaches in highly-connected aquatic systems. [ABSTRACT FROM AUTHOR]
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- 2017
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13. A new framework for selecting environmental surrogates.
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Lindenmayer, David, Pierson, Jennifer, Barton, Philip, Beger, Maria, Branquinho, Cristina, Calhoun, Aram, Caro, Tim, Greig, Hamish, Gross, John, Heino, Jani, Hunter, Malcolm, Lane, Peter, Longo, Catherine, Martin, Kathy, McDowell, William H., Mellin, Camille, Salo, Hanna, Tulloch, Ayesha, and Westgate, Martin
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ENVIRONMENTAL sciences , *ENVIRONMENTAL indicators , *ENVIRONMENTAL literacy , *ENVIRONMENTAL management , *PROXY , *DECISION making ,ENVIRONMENTAL aspects - Abstract
Surrogate concepts are used in all sub-disciplines of environmental science. However, controversy remains regarding the extent to which surrogates are useful for resolving environmental problems. Here, we argue that conflicts about the utility of surrogates (and the related concepts of indicators and proxies) often reflect context-specific differences in trade-offs between measurement accuracy and practical constraints. By examining different approaches for selecting and applying surrogates, we identify five trade-offs that correspond to key points of contention in the application of surrogates. We then present an 8-step Adaptive Surrogacy Framework that incorporates cross-disciplinary perspectives from a wide spectrum of the environmental sciences, aiming to unify surrogate concepts across disciplines and applications. Our synthesis of the science of surrogates is intended as a first step towards fully leveraging knowledge accumulated across disciplines, thus consolidating lessons learned so that they may be accessible to all those operating in different fields, yet facing similar hurdles. [ABSTRACT FROM AUTHOR]
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- 2015
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14. Spatio-temporal variation in water beetle assemblages across temperate freshwater ecosystems.
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Ortega, Jean C.G., Geijer, Joja, Bergsten, Johannes, Heino, Jani, Herrmann, Jan, Johansson, Frank, and Bini, Luis M.
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- 2021
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15. Damming affects riverine macroinvertebrate metacommunity dynamics: Insights from taxonomic and functional beta diversity.
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Wang, Jun, Ding, Chengzhi, Tao, Juan, Jiang, Xiaoming, Heino, Jani, Ding, Liuyong, Su, Wan, Chen, Meiling, Zhang, Kai, and He, Daming
- Abstract
Understanding ecological processes that drive metacommunity dynamics is essential for elucidating the mechanisms of community assembly and for guiding biodiversity conservation. This is especially important in dammed rivers. Here, we examined the taxonomic and functional beta diversity of macroinvertebrates and their underlying drivers in a dammed tropical river and compared the patterns with those in an adjacent undammed river. We found that both taxonomic and functional beta diversities were higher in the dammed river than in the undammed river across wet and dry seasons. The replacement component contributed most to the overall beta diversity for both taxonomic and functional facets, and this component was higher in the dammed river than in the undammed river. In addition, the taxonomic richness difference component was significantly higher in the dammed river in the dry season, but the functional richness difference component showed no difference between the two rivers and between the two seasons. Environmental filtering was the primary driver of total beta diversity and its replacement component, whereas the richness difference component was mainly explained by spatial factors, but these drivers varied in the dammed river in different seasons. Overall, our results indicated that damming induced changes in physiochemical variables (e.g., temperature, conductivity, and nutrients), accompanied by alterations in flow regime and longitudinal connectivity, increased replacement and loss of taxa or traits. These changes have consequently led to alteration of macroinvertebrate taxonomic and functional community dissimilarity and affected the relative effects of environmental and spatial factors on beta diversity and its components. Our study helps understand the ecological processes associated with dam impacts on macroinvertebrate biodiversity and the conservation potential of undammed rivers. In addition, our results showed that taxonomic and functional beta diversities can provide complementary information about dam impacts on riverine biodiversity. Unlabelled Image • Taxonomic and functional beta diversities were used to reveal dam impacts. • Beta diversity is higher in the dammed river compared to the natural river. • Replacement contributed most to beta diversity and is higher in the dammed river. • Damming affected the role of environmental and spatial factors on beta diversity. • Taxonomic and functional beta diversities are complementary to detect dam impacts. [ABSTRACT FROM AUTHOR]
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- 2021
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16. Distance decay of benthic macroinvertebrate communities in a mountain river network: Do dispersal routes and dispersal ability matter?
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Li, Zhengfei, Chen, Xiao, Jiang, Xiaoming, Tonkin, Jonathan D., Xie, Zhicai, and Heino, Jani
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Environmental heterogeneity and dispersal limitation are important drivers of beta diversity; however, their relative influence on the two fundamental components of beta diversity (i.e., species replacement and richness difference) has not been fully examined in montane streams. Here, we examined the relative importance of local environmental gradients and three physical distance matrices (i.e., overland, watercourse and cost distances) on beta diversity and its two components for a macroinvertebrate metacommunity in a stream network. To provide additional insights into community assembly, we also analysed variation in two deconstructed sub-communities based on dispersal ability (i.e., weak and strong dispersers). Both environmental filters and physical distances (dispersal limitation) drove patterns of overall beta diversity, with the former generally prevailing over the latter. Species replacement components showed stronger correlations with environmental gradients than physical distances, while the opposite is true for the richness difference components. Overland distances were generally more important than cost and watercourse distances for community dissimilarity of stream macroinvertebrates, implying that lateral dispersal out of stream corridors through flight was the major dispersal route in the studied steam network. As expected, community dissimilarity of strong dispersers was primarily shaped by environmental filtering, while community dissimilarity of weak dispersers was associated with the joint effects of environmental filtering and dispersal limitation. Our findings demonstrate that partitioning overall dissimilarity into species replacement and richness difference provides more insights into the processes driving spatial variability in biological communities compared with the utilization of total beta diversity alone. Our results support the notion that maintaining environmental heterogeneity and natural connectivity of stream networks should be effective measures to conserve regional biodiversity. Unlabelled Image • We tested DDRs between beta diversity and environmental/physical distances. • Environmental heterogeneity was the major driver of total beta diversity and replacement component. • Overland distance was more influential for beta diversity than watercourse and cost distances • Dispersal ability determined how communities responded to environmental and physical distances. • Maintaining environmental heterogeneity and natural connectivity are important to conserve stream biodiversity. [ABSTRACT FROM AUTHOR]
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- 2021
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17. Seasonal changes in metacommunity assembly mechanisms of benthic macroinvertebrates in a subtropical river basin.
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Li, Zhengfei, Xing, Yuan, Liu, Zhenyuan, Chen, Xiao, Jiang, Xuankong, Xie, Zhicai, and Heino, Jani
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Unraveling the ecological factors that control variation in local community structure in space and time is fundamental to metacommunity ecology. In this scenario, environmental filtering and spatial processes are recognized as important drivers of community assembly, yet their relative importance is anticipated to vary for biological communities in different seasons, network positions and organisms with distinct dispersal modes. In this study, we used a dataset (macroinvertebrate communities and environmental variables) collected in different seasons from the Ganjiang River in China to test the above ideas. We divided the whole metacommunity in each season into mainstream communities, tributary communities, strictly aquatic dispersers and aquatic/aerial dispersers, and subsequently used variation partitioning to examine the relative contribution of environmental and spatial factors separately for the overall and decomposed components of the metacommunity. Our results showed that both environmental filtering and spatial processes were important drivers of variation in community structure, yet their explanatory powers varied considerably among seasons. Environmental filtering was the primary driver of metacommunity organization in most scenarios, while the effects of spatial processes surpassing environmental filtering occurred only sporadically. For communities in different network positions, tributary communities were structured by both strong environmental filtering and profound effects of spatial processes via dispersal limitation. However, communities in mainstream sites were mainly determined by environmental filtering, and the effects of spatial processes were almost negligible. Moreover, environmental filtering was clearly more important for aquatic/aerial dispersers, while spatial processes were more influential for strictly aquatic dispersers. We thus concluded that environmental filtering, spatial processes, network position and dispersal mode can interact to regulate metacommunity organization of riverine macroinvertebrates. Considering that the relative contribution of these factors varied among seasons, we strongly uphold the idea that community ecology research should go beyond one-season snapshot surveys in river networks. Unlabelled Image • We tested seasonal variation in assembly mechanisms of macroinvertebrate communities. • Environmental filtering dominated in controlling community assembly in all seasons. • Network position can affect the relative importance of environmental and spatial factors. • Dispersal mode of organisms can also exert controls on community dynamics. • Seasonal surveys should be highlighted when conducting community assembly research. [ABSTRACT FROM AUTHOR]
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- 2020
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18. Ecological processes underlying community assembly of aquatic bacteria and macroinvertebrates under contrasting climates on the Tibetan Plateau.
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Vilmi A, Zhao W, Picazo F, Li M, Heino J, Soininen J, and Wang J
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- Animals, Biodiversity, Ecology, Rivers, Tibet, Bacteria, Climate Change, Ecosystem, Environmental Monitoring, Invertebrates
- Abstract
Understanding the role of climatic variation on biodiversity is of chief importance due to the ongoing biodiversity loss and climate change. Freshwaters, one of the most threatened ecosystems in the world, offer a valuable context to study biodiversity patterns of distinct organism groups in relation to climatic variation. In the Tibetan Plateau biodiversity hotspot - Hengduan Mountain region, we studied the effects of climate and local physico-chemical factors on stream microorganisms (i.e. bacteria) and macroorganisms (i.e. macroinvertebrates) in two parallel catchments with contrasting precipitation and temperature, that is, the Nujiang and Lancang Rivers. Diversities and community structures were better explained by climatic and local environmental variables in the drier and colder catchment and at higher elevations, than in the warmer and wetter conditions and at lower elevations. This suggests that communities may be more strongly assembled by deterministic processes in the former, comparatively harsher conditions, compared to the latter, more benign conditions. Macroinvertebrates were more strongly affected by climatic and local environmental factors compared to bacteria, but the diversities and community structures of the two groups showed spatially similar responses to overall abiotic variation, being especially evident with their community structures' responses to climate. Furthermore, bacterial and macroinvertebrate diversities were positively correlated in the drier and colder catchment, implying that these biologically and ecologically distinct organism groups are likely to be driven by similar processes in areas with such climatic conditions. We conclude that changes in climatic and local environmental conditions may affect the diversity of macroorganisms more strongly than that of microorganisms, at least in subtropical mountainous stream ecosystems studied here, but simultaneous responses of both groups to environmental changes can also be expected., (Copyright © 2019 Elsevier B.V. All rights reserved.)
- Published
- 2020
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