cover of the June 2024 issue

Read our June Issue

In our June issue we cover microplastic, high selectivity membranes, a review on water governance and much more

  • Francesco Parrella
  • Stefano Brizzolara
  • Denise M. Mitrano


  • collection image

    In this collection/call for paper, we present articles that explore all parts of sanitation research, including public health aspects, sustainable management, technology development and implementation, and environmental, social and technical challenges. We welcome submissions of articles that can help further our understanding and/or offer solutions to best address the global sanitation crisis.

    Open for submissions
  • collection hero

    In this collection/call for papers, we explore the hydraulic problems faced in both fundamental and applied research, with direct relevance for the optimal planning, design and operation of water resource systems. Our collection features articles that cover, for example, hydraulic structures, erosion protection, flood protection, hydroelectric-power generation, and more.

    Open for submissions
  • Nature Water talks march

    Nature Water Talks are online events organized by the Nature Water journal editors. The aim is to provide an informal and professional venue for our community to discuss a range of topics related to water resources and their relationship to society. We hope to engage a wide community across the globe by inviting experts to discuss challenges and opportunities in water-related issues.

Nature Water is a Transformative Journal; authors can publish using the traditional publishing route OR via immediate gold Open Access.

Our Open Access option complies with funder and institutional requirements.


  • Fieldwork isn’t just about collecting data — it’s a deeply immersive experience that connects cryosphere researchers directly to the landscapes they study. Each moment in the field, across the permafrost, snow, and glaciers, fosters a profound appreciation for the responses of these environments to the changing climate and human activities. Nature Water asked three experts about their experiences and insights into fieldwork.

    • Yanhua Chen
  • Solar-powered hygroscopic gels adsorb moisture derived from crop transpiration and soil evaporation at night and release it back into soil under sunlight during the day via a facile device, enabling recycling of irrigation water in greenhouses.

    • Qing Li
    • Wenshuai Chen
    News & Views
  • A considerable portion of human water usage is allocated to agriculture, yet optimizing water resources remains a persistent challenge. A promising solution lies in solar-powered technology integrated with hygroscopic porous gel, which captures water vapour from both plant transpiration and soil evaporation. This approach holds potential to enhance water utilization efficiency within greenhouses.

    • Hao Zou
    • Xinge Yang
    • Ruzhu Wang
  • Even though approaches to artificially reduce local glacier melt have been developed, they face considerable challenges on the larger scale. To mitigate the negative effects of an imminent loss of mountain glaciers, preserving the ice by reducing greenhouse gas emissions remains the most effective solution.

    • Matthias Huss
    World View
  • Transforming waste sludge into valuable resources presents a promising solution for sludge management. The method of crafting single-atom catalysts by utilizing a range of elements in sludge illustrates its potential effectiveness in water purification.

    • Zhongxiang Wang
    • Yadong Yin
    News & Views
  • The transformation of waste sludge from municipal wastewater treatment plants into valuable resources is fraught with challenges due to its complex composition. The approach proposed here efficiently upcycles trace redox-reactive transition metals present in sludge into single-atom catalysts, offering the dual benefit of effective sludge disposal and enhanced water purification.

    • Chao-Hai Gu
    • Ya Pan
    • Han-Qing Yu
  • Current methods for electrocatalytic destruction of nitrate in drinking water require metal catalysts to achieve sufficient nitrate removal. Electrified membranes containing pristine carbon nanotubes operated under flow-through mode provide an alternative approach for efficient nitrate reduction without the use of metals.

    • Yingzheng Fan
    • Xiaoxiong Wang
    • Lea R. Winter
  • Concurrent food and water insecurity doubled among children from 2005 to 2020, with minoritized children facing far more insecurity than their white counterparts.

    • J. Tom Mueller
    News & Views