《水文与地球系统科学》(HESS)是一本国际两期开放获取的水文原创性研究期刊。提交论文的讨论和同行评审将在开放访问的讨论论坛HESSD中进行。最终论文,在接受,出现在HESS(见互动审查过程)。HESS鼓励并支持促进对水文系统、水文系统在为生态系统和社会提供水方面的作用以及水循环在地球系统运作方面的作用的理解的基础和应用研究。鼓励采用多学科方法,通过与其他相关科学的融合和跨学科边界的交叉施肥,拓宽水文视角,促进水文科学的发展。因此,赫斯不仅旨在为水文科学社区,所有地球和生命科学家、工程师、水和水经理,那些希望发布原始发现管理流程之间的交互和反馈水循环和流程管理的大气环流和气候,bio-geochemical自行车、动力学,以及生态系统和社会的应变能力。HESS的范围包括:物理、化学和生物过程在从土壤水的微观过程到支持水文气候学的全球过程的所有尺度的大陆水的所有阶段,包括溶解物质和颗粒物质的循环中所起的作用;研究地球系统所有分区(大气、海洋、河口、河流、湖泊和陆块)的全球水资源(固体、液体和蒸汽)和有关预算的时空特征,包括水储量、停留时间、界面通量和各分区之间的通道;研究上述所有过程、预算、流量和途径与人类活动的相互作用,以及以可持续方式影响这些过程、预算、流量和途径的选择,特别是在洪水、干旱、沙漠化、土地退化、富营养化和全球变化的其他方面。该杂志发表研究论文、技术注释、意见论文、书评、关于高级科学失败的文章、前沿案例研究、简要通信、地球科学教育和通信研究,以及对以前在HESS上发表的论文的评论(见手稿类型)。论文应有助于水文模型、水文监测和数据分析、过程概念、实验设计和技术或理论基础的发展。
Hydrology and Earth System Sciences (HESS) is an international two-stage open-access journal for the publication of original research in hydrology. The discussion and peer review of submitted papers are handled in the open-access discussion forum HESSD. Final papers, upon acceptance, appear in HESS (see interactive review process).HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries. HESS, therefore, aims to serve not only the hydrological science community but all earth and life scientists, water engineers, and water managers, who wish to publish original findings on the interactions and feedbacks between the governing processes of the water cycle and processes governing atmospheric circulation and climate, bio-geochemical cycling, dynamics, and resilience of ecosystems and socio-economy.The scope of HESS encompasses the following:the role of physical, chemical, and biological processes in the cycling of continental water in all its phases, including dissolved and particulate matter, at all scales, from the micro-scale processes of soil water to the global-scale processes underpinning hydro-climatology;the study of the spatial and temporal characteristics of the global water resources (solid, liquid, and vapour) and related budgets, in all compartments of the Earth system (atmosphere, oceans, estuaries, rivers, lakes, and land masses), including water stocks, residence times, interfacial fluxes, and the pathways between various compartments;the study of interactions with human activity of all the processes, budgets, fluxes, and pathways as outlined above, and the options for influencing them in a sustainable manner, particularly in relation to floods, droughts, desertification, land degradation, eutrophication, and other aspects of global change.The journal publishes research articles, technical notes, opinion papers, book reviews, articles on high-level scientific failures, cutting-edge case studies, brief communications, studies on earth science education and communication, and comments on papers published previously in HESS (see manuscript types). Papers should contribute to the advancement of hydrological modelling, hydrological monitoring and data analysis, process concepts, experimental design and technology, or theoretical foundations.
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