Forest cover controls the nitrogen and carbon stable isotopes of rivers

Deforestation affects the ecological integrity of rivers and streams, threatening biodiversity and ecosystem services worldwide. However, few studies have strictly analyzed the effect of the functional responses of tropical streams to changes in forest cover since deforested basins are usually also influenced by confounding anthropogenic inputs. Here we address tropical streams and test whether the stable isotopic ratios of nitrogen (N, delta N-15) and carbon (C, delta C-13) and the ratio of C:N of ecosystem components vary along a forest cover gradient. We also assess the ecological integrity of streams by in situ measurements using physical features commonly used in stream quality assessments. The results showed that the delta N-15 of most aquatic components, delta C-13 of particulate matter and omnivorous fish, and C:N of particulate matter and algae vary significantly with forest cover, indicating the role of terrestrial vegetation in regulating stream biogeochemistry. The dual stable isotope analysis satisfactorily indicated the changes in terrestrial-aquatic connections regarding both N and C cycles, thus showing the role of algae and particulate matter in influencing stream fauna through food web transfers. Our results support the use of stable isotopes to monitor watershed deforestation and highlight the need for reassessment of the effects of anthropogenic inputs on delta N-15 increase in globally distributed inland waters since the loss of forest is a significant cause in itself.

Automated summary

Deforestation has negative impacts on the ecological integrity of rivers and streams, causing threats to biodiversity and ecosystem services worldwide. This study examines the effects of forest cover changes on tropical streams using stable isotopic ratios. The results show significant variations in isotopic ratios and highlight the importance of using stable isotopes to monitor and assess the impacts of deforestation on stream ecosystems.