Abstract
Hydromorphology is a major component of riverine ecosystems. Therefore, proper assessments of the status quo, as well as the detection of pressures in river basins, are of high relevance. Process-based morphological methods have been developed, relying on a broad data basis and resulting in suitable instruments, such as the Morphological Quality Index (MQI). In this study, the hydromorphological status of the Nanxi river system in Eastern China was assessed by an adapted application of the MQI. Adaptations and amendments in the methodical approach were developed in cycles and carried out to transfer the well-approved method for European river systems to another geographical setting. The strengths of the tested approach are the few data requirements, the applicability for modified river basins, and the decoupling of historical information. The assessment of 161 river kilometers resulted in a hydromorphological status quo with the focus being a relative comparison of different sections ranging from “moderate” to “bad”, with an average classification of a “poor” state. On the one hand, the results build the basis for future restoration and river management planning, specifically, and on the other hand, they create a foundation for the development of an assessment method fitted for modified river systems conditions.
Highlights
Riverine ecosystems have been under human geoengineering influence on a large scale and for a long period of time
The evaluation of the hydormorphological status quo within the river basin was carThe evaluation of the hydormorphological status quo within the river basin was ried out for reaches, which are defined as river sections with uniform boundary conditions carried out for reaches, which are defined as river sections with uniform boundary condi[30]
The well-recognized European Morphological Quality Index (MQI) method was applied and adapted in a highly modified river system in China. It was a limited application of the MQI method, the adaptations and modifications resulted in a plausible assessment of the hydromorphological status quo in the
Summary
Riverine ecosystems have been under human geoengineering influence on a large scale and for a long period of time. The hydromorphological status consists of the following components: hydrological regime, i.e., quantity and dynamics of water flow and connection to groundwater; river continuity for sediment and biota; morphological conditions which include the variation of river depth and width, structure and substrate of the riverbed, as well as the structure of the riparian zone and the floodplain According to this definition, hydromorphology is a multi-scale hierarchical topic [9]. Process-based morphological assessment methods which consider fluvial corridor, active channel, and floodplains can increase the information content These evaluation methods are focused on processes, they combine remote sensing data and field observations in an integrative way, and their results can be connected to other investigations concerning the ecosystem [17]. Land 2022, 11, x FOR PEER REVIEW river system is presented and applicability, necessary amendments, and achievable results are discussed
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