Global food security threatened by potassium neglect.

[1]  M. Fink,et al.  Direct and indirect effects of salinisation on riverine biota: a case study from river Wipper, Germany , 2023, Hydrobiologia.

[2]  E. Khayrulina,et al.  Environmental Aspects of Potash Mining: A Case Study of the Verkhnekamskoe Potash Deposit , 2023, Mining.

[3]  T. Bruulsema,et al.  Assessing Soil Potassium: Basic Principles and New Developments , 2023, Crops & Soils.

[4]  M. Sutton,et al.  Phosphorus price spikes: A wake-up call for phosphorus resilience , 2023, Frontiers in Sustainable Food Systems.

[5]  Roslyn C. Henry,et al.  High energy and fertilizer prices are more damaging than food export curtailment from Ukraine and Russia for food prices, health and the environment , 2022, Nature Food.

[6]  D. Saurí,et al.  Corrosive flows, faulty materialities: Building the brine collector in the Llobregat River Basin, Catalonia , 2022, Environment and Planning E: Nature and Space.

[7]  T. Araya,et al.  Soil salinity and its associated effects on soil microorganisms, greenhouse gas emissions, crop yield, biodiversity and desertification: A review. , 2022, The Science of the total environment.

[8]  H. Dugan,et al.  Freshwater salinisation: a research agenda for a saltier world. , 2022, Trends in ecology & evolution.

[9]  D. Manning,et al.  Circular economy and six approaches to improve potassium life cycle for global crop production , 2021, Resources Policy.

[10]  M. Sutton,et al.  The nitrogen decade: mobilizing global action on nitrogen to 2030 and beyond , 2021, One Earth.

[11]  R. Rawashdeh,et al.  World peak potash: An analytical study , 2020 .

[12]  W. Kloas,et al.  Potash mining effluents and ion imbalances cause transient osmoregulatory stress, affect gill integrity and elevate chronically plasma sulfate levels in adult common roach, Rutilus rutilus. , 2019, Environmental pollution.

[13]  M. Cañedo‐Argüelles,et al.  Lost in translation: the German literature on freshwater salinization , 2018, Philosophical Transactions of the Royal Society B.

[14]  R. Relyea,et al.  Regulations are needed to protect freshwater ecosystems from salinization , 2018, Philosophical Transactions of the Royal Society B.

[15]  D. Saurí,et al.  Naturalizing pollution: a critical social science view on the link between potash mining and salinization in the Llobregat river basin, northeast Spain , 2018, Philosophical Transactions of the Royal Society B.

[16]  S. Ponsá,et al.  Effects of potash mining on river ecosystems: An experimental study. , 2017, Environmental pollution.

[17]  M. B. Griffith,et al.  TOXICOLOGICAL PERSPECTIVE ON THE OSMOREGULATION AND IONOREGULATION PHYSIOLOGY OF MAJOR IONS BY FRESHWATER ANIMALS: TELEOST FISH, CRUSTACEA, AQUATIC INSECTS, AND MOLLUSCA , 2016, Environmental toxicology and chemistry.

[18]  Dale J. Hoff,et al.  The acute toxicity of major ion salts to Ceriodaphnia dubia: I. influence of background water chemistry , 2016, Environmental toxicology and chemistry.

[19]  Elisa Morgera The Need for an International Legal Concept of Fair and Equitable Benefit Sharing , 2016 .

[20]  E. Peiter,et al.  Potassium in agriculture--status and perspectives. , 2014, Journal of plant physiology.

[21]  J. Bäthe,et al.  Effects of reduced salt concentrations on plant communities in the River Werra (Germany) , 2011 .

[22]  Volker Römheld,et al.  Research on potassium in agriculture: needs and prospects , 2010, Plant and Soil.

[23]  E. A. Kirkby,et al.  Principles of Plant Nutrition , 1980, Springer Netherlands.

[24]  M. Oehl Sustainable Commodity Use , 2022, European Yearbook of International Economic Law.

[25]  M. L. Thompson,et al.  Improving Potassium Recommendations for Agricultural Crops , 2021 .