| Abstract |
Ecological disturbances driving state changes in ecosystems are likely to be exacerbated with climate shifts during this century. Temperate montane ecosystems of the Western United States (Mountain West) are especially vulnerable due to their low fertility, heterogeneous landscapes, and tight coupling between terrestrial and aquatic components. We review how catchment level pulse and press disturbances will intensify, and how they are reflected by coupled measurements of stream water chemistry and flow. Detecting effects on watershed processes can be complex and depend on the type and extent of disturbance. Within this context, we discuss the impacts of wildfire (pulse), bark beetle outbreaks (pulse), snowpack shifts (press), and progressive vegetation community shifts (press) on streamflow and chemistry dynamics (hydrochemographs). We used long-term data from three mid- to high-elevation watersheds as examples of how disturbances may influence stream hydrochemographs, including increased variability in winter nitrate export in more recent years with extremes in snowmelt runoff export; variable nitrate export when snow water equivalent was abnormally high or low; and high nitrate flux in the years immediately following sudden forest loss. These examples illustrate the need for long-term continuous monitoring to fill the gap in our understanding of the short- and long-term consequences of climate change-induced disturbances to watersheds. As disturbances increase in severity and frequency and induce ecological state changes, it is critical that we develop our understanding of impacts on downstream communities that depend sociologically and economically on water availability and quality. |
| Authors |
Linnea A. Rock   , Bryce Shoup , Joshua A. Ajowele , Félix Brédoire , Isabella A. Oleksy , Matthew Tetrick , David G. Williams , Sarah M. Collins
|
| Journal Info |
Springer Science+Business Media | Ecosystems
|
| Publication Date |
10/7/2024 |
| ISSN |
1432-9840 |
Type |
article |
| Open Access |
closed
|
| DOI |
https://doi.org/10.1007/s10021-024-00942-9 |
| Keywords |
Temperate rainforest (Score: 0.61669374) , Temperate forest (Score: 0.56822467)
|
