Threshold Responses in the Taxonomic and Functional Structure of Fish Assemblages to Land Use and Water Quality: A Case Study from the Taizi River

Zhang, Yuan; Wang, Xiaoning; Ding, Hai-Yu; Yang, Dongfang; Ding, Sen; Gao, Xin

doi:10.3390/w11040661

Cited by 14 publications

(12 citation statements)

References 60 publications

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“…In particular, a 1% improvement in institutional quality declines the land-use change by 0.050%. This outcome is consistent with prior research [68][69][70] which points out that institutional quality encourages a decrease in land-use change. This suggests that the growth of government effectiveness and alignment with highly efficient applications could lead to a decline in the land-use change in EU13 underdeveloped countries.…”

Section: Resultssupporting

confidence: 92%

Land-Use Change Impacts from Sustainable Hydropower Production in EU28 Region: An Empirical Analysis

2021

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Under the current European Union (EU) constitution approved in May 2018, EU countries ought to guarantee that estimated greenhouse-gas releases from land use, land-use change, or forestry are entirely compensated by an equivalent accounted removal of carbon dioxide (CO2) from the air during the period between 2021 and 2030. This study investigates the effect of sustainable hydropower production on land-use change in the European Union (EU28) region countries during 1990–2018, using the fully modified ordinary least squares (FMOLS). The results revealed that land-use change incline with an increase in hydropower energy production. In addition, economic growth, carbon dioxide emissions, and population density are found to be increasing land-use changes, while institutional quality is found to be decreasing land-use change significantly. The finding implies that land-use change in EU28 region countries can be significantly increased by mounting the amount of hydropower energy production to achieve Energy Union aims by 2030. This will finally be spread to combat climate change and environmental pollution. The findings are considered robust as they were checked with DOLS and pooled OLS. The research suggests that the EU28 countries pay attention to the share of hydropower in their renewable energy combination to minimize carbon releases. Politicians and investors in the EU28 region ought to invest further in the efficiency and sustainability of hydropower generation to increase its production and accessibility without further degradation of forest and agricultural conditions. The authorities of the EU28 region should emphasize on efficiency and sustainability of hydropower energy with land-use management to achieve the international commitments for climate, biodiversity, and sustainable development, reduce dependence on fossil fuel, and energy insecurity.

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Section: Resultssupporting

confidence: 92%

Land-Use Change Impacts from Sustainable Hydropower Production in EU28 Region: An Empirical Analysis

2021

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“…Abrupt shifts in the composition of fish communities are the result of species‐level responses to land conversion (Rhodes et al., 2008; Zhang et al., 2019). We found that fish communities in disparate biogeographic regions of the world showed marked consistency in patterns of species turnover that occurred at comparable or lower threshold levels of urbanization (1–10 times lower; Table 1) compared to agricultural land use.…”

Section: Discussionmentioning

confidence: 99%

“…Evidence for threshold responses of riverine fish communities to land use change remain primarily limited to catchment‐level scales (Paul & Meyer, 2001); whereas investigations at larger biogeographic scales are scarce (Clapcott et al., 2012; Daniel et al., 2015; Feld, 2013). Catchment studies have reported threshold values ranging up to 50% agricultural land use, beyond which fundamental shifts in fish community structure and biodiversity (e.g., species richness and index of biotic integrity) were observed (e.g., Allan, 2004; Feld, 2013; Kovalenko et al., 2014; Zhang et al., 2019). Threshold responses of fish community structure to urban land use appear less variable, and generally occur at lower levels ranging from 5% to 25% (e.g., Clapcott, Young, Goodwin, & Leathwick, 2010; Dahm et al., 2013; King, Baker, Kazyak, & Weller, 2011; Lisi et al., 2018).…”

Section: Introductionmentioning

confidence: 99%

Threshold responses of riverine fish communities to land use conversion across regions of the world

Chen

Olden

2020

Global Change Biology

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The growing human enterprise has sparked greater interest in identifying ecological thresholds in land use conversion beyond which populations or communities demonstrate abrupt nonlinear or substantive change in species composition. Such knowledge remains fundamental to understanding ecosystem resilience to environmental degradation and informing land use planning into the future. Confronting this challenge has been largely limited to inferring thresholds in univariate metrics of species richness and indices of biotic integrity and has largely ignored how land use legacies of the past may shape community responses of today. By leveraging data for 13,069 riverine sites from temperate, subtropical, and boreal climate zones on four continents, we characterize patterns of community change along diverse gradients of urbanization and agricultural land use, and identity threshold values beyond which significant alterations in species composition exists. Our results demonstrate the apparent universality by which freshwater fish communities are sensitive to even low levels of watershed urbanization (range of threshold values: 1%-12%), but consistently higher (and more variable) levels of agricultural development (2%-37%). We demonstrated that fish community compositional thresholds occurred, in general, at lower levels of watershed urbanization and agriculture when compared to threshold responses in species richness. This supports the notion that aggregated taxon-specific responses may better reflect the complexity of assemblage responses to land use development. We further revealed that the ghost of land use past plays an important role in moderating how current-day fish communities respond to land use intensification. Subbasins of the United States experiencing greater rates of past land use change demonstrated higher current-day thresholds. Threshold responses of community composition, such as those identified in our study, illustrate the need for globally coordinated efforts to prioritize country-specific management and policy initiatives that ensure that freshwater fish diversity is not inevitably lost in the future.

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“…The negative hydrological effects caused by this particular land use form are mainly manifested by reduced soil infiltration and increased surface runoff, as well as increased sediment and sources of pollutants [10,11]. From a long-term perspective, the regional urbanization process is usually accompanied by the degradation of surface water quality and aquatic ecosystems [12][13][14]. For streams, the common pollutants, e.g., nitrogen, phosphorus and heavy metals, usually increased significantly with rapid urbanization, and it has been suggested that stream water quality and aquatic ecosystems might be damaged if the proportion of impervious surfaces in watersheds reach 10%-15% [15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Effects of Land Use on Stream Water Quality in the Rapidly Urbanized Areas: A Multiscale Analysis

Song

Shao

et al. 2020

Water

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The land use and land cover changes in rapidly urbanized regions is one of the main causes of water quality deterioration. However, due to the heterogeneity of urban land use patterns and spatial scale effects, a clear understanding of the relationships between land use and water quality remains elusive. The primary purpose of this study is to investigate the effects of land use on water quality across multi scales in a rapidly urbanized region in Hangzhou City, China. The results showed that the response characteristics of stream water quality to land use were spatial scale-dependent. The total nitrogen (TN) was more closely related with land use at the circular buffer scale, whilst stronger correlations could be found between land use and algae biomass at the riparian buffer scales. Under the circular buffer scale, the forest and urban greenspace were more influential to the TN at small buffer scales, whilst significant positive or negative correlations could be found between the TN and the areas of industrial land or the wetland and river as the buffer scales increased. The redundancy analysis (RDA) showed that more than 40% variations in water quality could be explained by the landscape metrics at all circular and riparian buffer scales, and this suggests that land use pattern was an important factor influencing water quality. The variation in water quality explained by landscape metrics increased with the increase of buffer size, and this implies that land use pattern could have a closer correlation with water quality at larger spatial scales.

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Threshold Responses in the Taxonomic and Functional Structure of Fish Assemblages to Land Use and Water Quality: A Case Study from the Taizi River

Cited by 14 publications

References 60 publications

Land-Use Change Impacts from Sustainable Hydropower Production in EU28 Region: An Empirical Analysis

Land-Use Change Impacts from Sustainable Hydropower Production in EU28 Region: An Empirical Analysis

Threshold responses of riverine fish communities to land use conversion across regions of the world

Effects of Land Use on Stream Water Quality in the Rapidly Urbanized Areas: A Multiscale Analysis

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