Regime shifts and resilience in China’s coastal ecosystems

Zhang, Ke

doi:10.1007/s13280-015-0692-2

Cited by 19 publications

(8 citation statements)

References 80 publications

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“…When shifting dates were also taken into consideration, it was discovered that the alteration in MARs was first detected (1944), then in the C : N ratio (1961), and finally in PC1 and PC2 (1972,1964) from 1940 to 1980. The temporal relationship in MAR, C : N ratio, and PC1 supported the cascading relationship in lakes where sedimentation state switching and organic matter input changing triggered biogenic regime shifts in lake sediments (Randsalu-Wendrup et al 2016;Zhang 2016). Material input patterns and sediment deposition in large lakes can alter physical, chemical, and biological processes in lake sediments, such as hydrodynamic material sorting (Tesi et al 2016), reoccurring deposition loops (Walling and He 1998), deposited compaction (Oguri et al 2022), and mineralization and microbial degradation in profile depth and oxygen limitations (Burdige 2007;Bao et al 2021).…”

Section: Trigger Effects Of Sedimentation State Transitions On Biogen...mentioning

confidence: 74%

A significant loop of lake sedimentation state links catchment eco‐surroundings and lake biogenic regime shifts

Ran

Nie

Wang

et al. 2023

Limnology & Oceanography

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As an important destination for upstream materials and element accumulation, lake sediments hold a multitude of contextual information about climatic changes and anthropogenic disturbances. However, understanding the lake sedimentation state to link catchment pressures and biogenic regime shifts remains challenging. To address this, research was conducted on the lake sedimentation state, including the dynamics, catchment drivers, effects on biogenic regimes, and responses to typical historical events using nine sediment cores from Dongting Lake, China, a typical global priority ecoregion. Three transitions of lake sedimentation state were distinguished over the century (1937, 1968, and 1993), whereby hydrologic dynamics and land‐use changes in the watershed were the direct drivers with relative contributions of 16.30% and 14.56%, respectively. Lake sedimentation state and organic matter inputs not only preceded sediment biogenic elements at the shift time but also exhibited nonlinear trigger effects on biogenic element contents (R2 = 0.47, p < 0.01), which promoted an increase in sediment biogenic element burial rates. Rate of change analysis indicated that intensive human activities altered the relationship between the sedimentation state and biogenic regime shift, thus revealing the response to anthropogenic events in the catchment. Pathways quantified by the partial least squares path model established the link between watershed attributes and lake biogenic properties via the lake sedimentation state. Our findings revealed a cascading linkage among catchment eco‐surroundings, lake sedimentation states, and biogenic regime shifts. The research further provided insights into driver‐response relationships in lake‐catchment systems.

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Section: Trigger Effects Of Sedimentation State Transitions On Biogen...mentioning

confidence: 74%

A significant loop of lake sedimentation state links catchment eco‐surroundings and lake biogenic regime shifts

Ran

Nie

Wang

et al. 2023

Limnology & Oceanography

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“…Their expansion is not limited by feed development, but instead by competition for space with other industries, and is highly affected by degraded water quality. Current trends already indicate increasingly degraded coastal water quality, 61,77 but the stated ambition to strengthen pollution regulation could change this trajectory. Suitable space and access to freshwater and healthy environments are thus two key factors that could limit expansion of aquaculture on land and along coasts.…”

Section: Chinese Seafood Production and Consumption Up To 2030mentioning

confidence: 99%

China at a Crossroads: An Analysis of China's Changing Seafood Production and Consumption

et al. 2020

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China is a key player in global production, consumption, and trade of seafood. Given this dominance, Chinese choices regarding what seafood to eat, and how and where to source it, are increasingly important-for China, and for the rest of the world. This perspective explores this issue using a transdisciplinary approach and discusses plausible trajectories and implications for assumptions of future modeling efforts and global environmental sustainability and seafood supply. We outline China's 2030 projected domestic seafood production and consumption through an examination of available statistics, and qualitatively evaluate these in relation to key stated Chinese policy targets, consumer trends, and dominant political narratives. Our analysis shows that by 2030 China is likely to see seafood consumption outstrip domestic production. To meet the seafood gap China will likely attempt to increase domestic freshwater and offshore aquaculture, increase seafood imports, possibly expand the distant water fishing industry, and invest in seafood production abroad.

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“…Previous studies have used RS and interpretation of satellite imagery especially MODIS (Moderate Resolution Imaging Spectroradiometer) images to monitor ecosystem status and its resilience after facing a stress [21][22][23]. Here, Images of a particular month of the years (July) were imployed.…”

Section: Data Usedmentioning

confidence: 99%

Predicting ecosystem shift in a Salt Lake by using remote sensing indicators and spatial statistics methods (case study: Lake Urmia basin)

Tehrani

Janalipour

2020

Environmental Engineering Research

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The consequences of unsustainable human activities on the environment are often delayed, when it is too late to compensate. New approaches are based on the use of “spatial statistics” of leading indicators to measure the “critical slowing down” in a degraded ecosystem, when it is reaching to a tipping point. This research predicts the tipping points in the ecosystem of Lake Urmia Basin (LUB) based on spatial statistics. By Remote Sensing (RS) indicators, their effectiveness in assessing the state of the ecosystem was evaluated in a 16-years period (2002-2017). Seven spectral indicators (NDVI, NDWIv,NDWIw,NDSI,SRDI, NMDI and MVWR) were extracted from ten MODIS images. Ability of the indicators to identify critical point in time-series was investigated by five spatial statistic methods (Moran’s-I, Getis-Ord-Gi, Geary’s-C, variance, and skewness). The results showed that Moran’s-I is more successful in predicting the ecosystem tipping point(s) in comparison with other methods. In addition, the ability to predict ecosystem trends by the autocorrelation of MVWR is higher than other indicators. According to results, the tipping points of LUB occurred in the years of 2008 to 2010 and 2015. For further studies, it is recommended to use radar indicators for identifying tipping points of the similar vulnerable ecosystems.

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Regime shifts and resilience in China’s coastal ecosystems

Cited by 19 publications

References 80 publications

A significant loop of lake sedimentation state links catchment eco‐surroundings and lake biogenic regime shifts

A significant loop of lake sedimentation state links catchment eco‐surroundings and lake biogenic regime shifts

China at a Crossroads: An Analysis of China's Changing Seafood Production and Consumption

Predicting ecosystem shift in a Salt Lake by using remote sensing indicators and spatial statistics methods (case study: Lake Urmia basin)

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