Abstract
Continental aquatic systems from rivers to the coastal zone are considered within two perspectives: (i) as a major link between the atmosphere, pedosphere, biosphere and oceans within the Earth system with its Holocene dynamics, and (ii) as water and aquatic biota resources progressively used and transformed by humans. Human pressures have now reached a state where the continental aquatic systems can no longer be considered as being controlled by only Earth system processes, thus defining a new era, the Anthropocene. Riverine changes, now observed at the global scale, are described through a first set of syndromes (flood regulation, fragmentation, sediment imbalance, neo–arheism, salinization, chemical contamination, acidification, eutrophication and microbial contamination) with their related causes and symptoms. These syndromes have direct influences on water uses, either positive or negative. They also modify some Earth system key functions such as sediment, water, nutrient and carbon balances, greenhouse gas emissions and aquatic biodiversity. Evolution of river syndromes over the past 2000 years is complex: it depends upon the stages of regional human development and on natural conditions, as illustrated here for the chemical contamination syndrome. River damming, eutrophication and generalized decrease of river flow due to irrigation are some of the other global features of river changes. Future management of river systems should also consider these long–term impacts on the Earth system.
Keywords
AnthropoceneEnvironmental scienceEutrophicationBiosphereEarth system scienceAquatic ecosystemBiodiversityGlobal changeSedimentClimate changeEcologyEarth scienceHydrology (agriculture)GeologyNutrientBiology
Affiliated Institutions
Related Publications
Trajectories of the Earth System in the Anthropocene
We explore the risk that self-reinforcing feedbacks could push the Earth System toward a planetary threshold that, if crossed, could prevent stabilization of the climate at inte...
Fragmentation and Flow Regulation of River Systems in the Northern Third of the World
Seventy-seven percent of the total water discharge of the 139 largest river systems in North America north of Mexico, in Europe, and in the republics of the former Soviet Union ...
Basin Closure and Environmental Flow Requirements
A river basin is referred to as 'closed' when all its river flow is allocated to different uses. Water requirements of freshwater-dependent ecosystems, often referred to as 'env...
Sources and delivery of carbon, nitrogen, and phosphorus to the coastal zone: An overview of Global Nutrient Export from Watersheds (NEWS) models and their application
An overview of the first spatially explicit, multielement (N, P, and C), multiform (dissolved inorganic: DIN, DIP; dissolved organic: DOC, DON, DOP; and particulate: POC, PN, PP...
Cyanobacterial blooms
Cyanobacteria can form dense and sometimes toxic blooms in freshwater and marine environments, which threaten ecosystem functioning and degrade water quality for recreation, dri...
Publication Info
- Year
- 2003
- Type
- review
- Volume
- 358
- Issue
- 1440
- Pages
- 1935-1955
- Citations
- 742
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
742
OpenAlex
Cite This
Michel Meybeck
(2003).
Global analysis of river systems: from Earth system controls to Anthropocene syndromes.
Philosophical Transactions of the Royal Society B Biological Sciences
, 358
(1440)
, 1935-1955.
https://doi.org/10.1098/rstb.2003.1379
Identifiers
- DOI
- 10.1098/rstb.2003.1379