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The Anthropogenic Salt Cycle.

Sujay S Kaushal1, Gene E Likens2,3, Paul M Mayer4

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Human activities are accelerating salt cycles, leading to widespread freshwater salinization syndrome. Urgent action is needed to prevent irreversible environmental damage from excess salt.

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Area of Science:

  • Earth System Science
  • Environmental Science
  • Hydrology

Background:

  • Increasing global salt production and usage disrupts natural salt ion balances.
  • This disruption causes interconnected effects across biophysical systems, termed freshwater salinization syndrome.
  • The natural salt cycle, driven by slow geologic and hydrologic processes, is being overwhelmed by anthropogenic activities.

Purpose of the Study:

  • To conceptualize the natural salt cycle.
  • To synthesize global trends in salt production and riverine salt concentrations/fluxes.
  • To highlight the impacts of the anthropogenic salt cycle and freshwater salinization syndrome.

Main Methods:

  • Review and synthesis of existing literature on salt production and fluxes.
  • Conceptualization of the natural and anthropogenic salt cycles.
  • Analysis of global trends and case studies (e.g., USA salt budget).

Main Results:

  • Global salt production has surged, with ~300 Mt of NaCl produced annually.
  • Anthropogenic activities have accelerated salt fluxes, altering natural cycles.
  • Riverine salt fluxes can rival anthropogenic inputs, leading to watershed accumulation and widespread salinization.

Conclusions:

  • Freshwater salinization syndrome extends beyond water, impacting food, energy, air quality, health, and infrastructure.
  • Environmental limits and thresholds for salt ions must be identified.
  • Reducing salinization is critical to prevent exceeding planetary boundaries and causing irreversible damage.