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1.
Glob Chang Biol ; 29(2): 355-374, 2023 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-36131677

RESUMEN

Rivers suffer from multiple stressors acting simultaneously on their biota, but the consequences are poorly quantified at the global scale. We evaluated the biological condition of rivers globally, including the largest proportion of countries from the Global South published to date. We gathered macroinvertebrate- and fish-based assessments from 72,275 and 37,676 sites, respectively, from 64 study regions across six continents and 45 nations. Because assessments were based on differing methods, different systems were consolidated into a 3-class system: Good, Impaired, or Severely Impaired, following common guidelines. The proportion of sites in each class by study area was calculated and each region was assigned a Köppen-Geiger climate type, Human Footprint score (addressing landscape alterations), Human Development Index (HDI) score (addressing social welfare), % rivers with good ambient water quality, % protected freshwater key biodiversity areas; and % of forest area net change rate. We found that 50% of macroinvertebrate sites and 42% of fish sites were in Good condition, whereas 21% and 29% were Severely Impaired, respectively. The poorest biological conditions occurred in Arid and Equatorial climates and the best conditions occurred in Snow climates. Severely Impaired conditions were associated (Pearson correlation coefficient) with higher HDI scores, poorer physico-chemical water quality, and lower proportions of protected freshwater areas. Good biological conditions were associated with good water quality and increased forested areas. It is essential to implement statutory bioassessment programs in Asian, African, and South American countries, and continue them in Oceania, Europe, and North America. There is a need to invest in assessments based on fish, as there is less information globally and fish were strong indicators of degradation. Our study highlights a need to increase the extent and number of protected river catchments, preserve and restore natural forested areas in the catchments, treat wastewater discharges, and improve river connectivity.


Asunto(s)
Ecosistema , Monitoreo del Ambiente , Animales , Humanos , Monitoreo del Ambiente/métodos , Ríos , Peces , Calidad del Agua , Biodiversidad , Invertebrados
2.
Sci Rep ; 12(1): 12248, 2022 07 18.
Artículo en Inglés | MEDLINE | ID: mdl-35851074

RESUMEN

Adequate management and conservation of instream thermal habitats requires an understanding of the control that different landscape features exert on water temperatures. Previous studies have extensively explored the influence of spatial scale on these relationships. However, the effect of temporal scale remains poorly understood. Here, we use paired air-water mean daily and monthly summer temperatures collected over four years from 130 monitoring stations in Japanese mid- to low-order streams to investigate whether perceived effects of different environmental controls on water temperature are dependent on the timescale of the temperature data, and whether those dependencies are related to the spatial scale at which these controls operate. We found a clear pattern for the significant cooling effect, high relative importance and strong dominance exerted by the riparian forest cover on daily temperatures at the reach scale becoming dampened by concomitant increases associated to the proportion of volcanic geology on monthly temperatures at the catchment scale. These results highlight the importance of contextualizing the effects of environmental controls on water temperatures to the timescale of the analysis. Such dependencies are particularly important for the management and conservation of instream thermal habitats in a rapidly warming world.


Asunto(s)
Bosques , Agua , Ecosistema , Estaciones del Año , Temperatura
3.
Heredity (Edinb) ; 127(4): 413-422, 2021 10.
Artículo en Inglés | MEDLINE | ID: mdl-34417564

RESUMEN

A key piece of information for ecosystem management is the relationship between the environment and population genetic structure. However, it is difficult to clearly quantify the effects of environmental factors on genetic differentiation because of spatial autocorrelation and analytical problems. In this study, we focused on stream ecosystems and the environmental heterogeneity caused by groundwater and constructed a sampling design in which geographic distance and environmental differences are not correlated. Using multiplexed ISSR genotyping by sequencing (MIG-seq) method, a fine-scale population genetics study was conducted in fluvial sculpin Cottus nozawae, for which summer water temperature is the determinant factor in distribution and survival. There was a clear genetic structure in the watershed. Although a significant isolation-by-distance pattern was detected in the watershed, there was no association between genetic differentiation and water temperature. Instead, asymmetric gene flow from relatively low-temperature streams to high-temperature streams was detected, indicating the importance of low-temperature streams and continuous habitats. The groundwater-focused sampling strategy yielded insightful results for conservation.


Asunto(s)
Ecosistema , Agua Subterránea , Estructuras Genéticas , Ríos , Temperatura , Agua
4.
Conserv Biol ; 35(3): 884-896, 2021 06.
Artículo en Inglés | MEDLINE | ID: mdl-33463768

RESUMEN

Forest conversion is one of the greatest global threats to biodiversity, and land-use change and subsequent biodiversity declines sometimes occur over a variety of underlying geologies. However, how forest conversion and underlying geology interact to alter biodiversity is underappreciated, although spatial variability in geology is considered an integral part of sustaining ecosystems. We aimed to examine the effects of forest conversion to farmland, the underlying geology, and their interaction on the stream fishes' diversity, evenness, and abundance in northeastern Japan. We disentangled complex pathways between abiotic and biotic factors with structural equation modeling. Species diversity of stream fishes was indirectly shaped by the interaction of land use and underlying geology. Diversity declined due to nutrient enrichment associated with farmlands, which was mainly the result of changes in evenness rather than by changes in species richness. This impact was strongest in streams with volcanic geology with coarse substrates probably because of the differential responses of abundant stream fishes to nutrient enrichment (i.e., dominance) and the high dependency of these fishes on large streambed materials during their life cycles. Our findings suggest that remediation of deforested or degraded forest landscapes would be more efficient if the interaction between land use and underlying geology was considered. For example, the negative impacts of farmland on evenness were larger in streams with volcanic geology than in other stream types, suggesting that riparian forest restoration along such streams would efficiently provide restoration benefits to stream fishes. Our results also suggest that land clearing around such streams should be avoided to conserve species evenness of stream fishes.


Impactos Geológicamente Dependientes de la Conversión de Bosques sobre la Diversidad de Peces de Arroyo Resumen La conversión de los bosques es una de las mayores amenazas para la biodiversidad mundial y el cambio en el uso de suelo y las declinaciones subsecuentes de la biodiversidad a veces ocurren a lo largo de una variedad de geologías subyacentes. Sin embargo, la manera en que interactúan la conversión del bosque y la geología subyacente está subestimada a pesar de que la variabilidad espacial en la geología es considerada una parte integral del mantenimiento de un ecosistema. Fijamos como objetivo examinar los efectos de la conversión del bosque a tierras de cultivo, la geología subyacente y sus interacciones sobre la diversidad, uniformidad y abundancia de peces de arroyo en el noreste de Japón. Para esto, desentrañamos las vías complejas entre los factores bióticos y abióticos con modelados de ecuación estructural. La diversidad de especies de los peces de arroyo estuvo formada indirectamente por la interacción del uso de suelo y la geología subyacente. La diversidad declinó debido al enriquecimiento de nutrientes asociado con las tierras de cultivo, lo cual fue principalmente resultado de los cambios en la uniformidad de especies en lugar de cambios en la riqueza de especies. Este impacto fue más fuerte en los arroyos con geología volcánica y sustratos ásperos, probablemente debido a las respuestas diferenciales de los peces abundantes en el arroyo al enriquecimiento de nutrientes (es decir, dominancia) y la alta dependencia de estos peces por los grandes materiales del lecho durante su ciclo de vida. Nuestros hallazgos sugieren que la reparación de los paisajes de bosque deforestados o degradados sería más eficiente si se considera la interacción entre el uso de suelo y la geología subyacente. Por ejemplo, los impactos negativos de las tierras de cultivo sobre la uniformidad fueron mayores en los arroyos con geología volcánica que en otros tipos de arroyo, lo que sugiere que la restauración de los bosques ribereños a lo largo de dichos arroyos proporcionaría eficientemente los beneficios de restauración a los peces del arroyo. Nuestros resultados sugieren que el desmonte de tierras alrededor de dichos arroyos debería evitarse para conservar la uniformidad de especies de los peces de arroyo.


Asunto(s)
Ecosistema , Ríos , Animales , Biodiversidad , Conservación de los Recursos Naturales , Peces , Bosques , Geología
5.
Conserv Biol ; 32(6): 1403-1413, 2018 12.
Artículo en Inglés | MEDLINE | ID: mdl-29785835

RESUMEN

Large dams provide vital protection and services to humans. However, an increasing number of large dams worldwide are old and not operating properly. The removal of large dams has excellent potential to restore habitat connectivity and flow regimes; therefore, projecting the related ecological consequences is an emerging need for water resource and ecosystem management. However, no modeling methods are currently available for such projections at the basin scale. We devised a scheme that integrates changes in flow regimes and habitat network structure into a basin-scale impact assessment of removal of large dams and applied it to the Nagara-Ibi Basin, Japan. We used a graph-theoretical approach and a hydrological model, to quantify changes in habitat availability for 11 freshwater fishes at the basin scale under multiple removal scenarios. We compared these results with the change predicted using a conventional scheme that considered only changes to the habitat network due to dam removal. Our proposed scheme revealed that an increase in flow variability associated with dam removal projected both positive and negative effects on basin-scale habitat availability, depending on the focal species, endangered species had a negative response to dam removal. In contrast, the conventional approach projected only positive effects for all species. This difference in the outcomes indicates that large-dam removal can have negative and positive effects on watershed restoration due to changes in flow regimes. Our results also suggest the effect of removal of large dams may depend on the dams and their locations. Our study is the first step in projecting ecological trade-offs associated with the removal of large dams on riverscapes at the basin scale and provides a foundation for future process-based watershed restoration.


Asunto(s)
Ecosistema , Ríos , Animales , Conservación de los Recursos Naturales , Peces , Japón
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