Aquatic-Terrestrial Linkages along Arid Land Rivers

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Description
Though the connection between terrestrial riparian consumers and the adjacent aquatic food web has been well-studied in a variety of systems, gaps with respect to several habitats remain. The Colorado River Basin represents many of these untested habitat characteristics: it

Though the connection between terrestrial riparian consumers and the adjacent aquatic food web has been well-studied in a variety of systems, gaps with respect to several habitats remain. The Colorado River Basin represents many of these untested habitat characteristics: it contains large, controlled rivers in an arid environment that are often canyon-bound. These characteristics, however, are not unique to the Colorado River Basin. Dams and arid lands are becoming increasingly common around the world, stressing the importance of understanding the function of riparian areas within the Colorado River Basin and basins like it. Stable isotopes, including the more recent application of deuterium, can be used to elucidate trophic linkages between rivers and their riparia. Though dams may harm aquatic insect populations, it is possible that they also make aquatic insects a stable, constant food source to the riparian biological community. This dissertation demonstrates that aquatic emergent insects are a reliable, and therefore important, food source for arid land riparian consumers along regulated rivers. However, the importance of aquatic emergent insects to riparian consumers may vary across sites, even within the same river basin. To explore this variation, the diet of a common riparian lizard species Urosaurus ornatus (Ornate Tree Lizard) can be used as an indicator of cross-ecosystem connectivity. This dissertation demonstrates linkages between two differing river segments and U. ornatus, showcasing its ability as an indicator of connectivity across a diversity of systems. Within the Colorado River Basin, the Grand Canyon provides an opportunity to study a variety of riparian consumers across a gradient of habitat parameters and dam effects. This dissertation demonstrates the manifold connections between large, regulated rivers and arid riparian consumers, ranging from lizards, to bats, to, for the first time, mice. Monsoons have differing effects on river-riparian communities in this basin, potentially related to intact tributary confluences. Lastly, this dissertation demonstrates that hydropeaking reduces river-riparia connectivity by reducing aquatic insect emergence. This dissertation seeks to improve understanding of the linkages between river and their riparia to aid in the management of arid riparian areas affected by dams worldwide.
Date Created
2021
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