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Improving Infrastructure for Wildlife. Natural Resources & Environment. 34, 38–42.(2020).
Integrating Complex Economic and Hydrologic Planning Models: An Application for Drought Under Climate Change Analysis. Water Resources and Economics.(2016).
Isotopes and genes reveal freshwater origins of Chinook salmon (Oncorhynchus tshawytscha) aggregations in California’s coastal ocean. Marine Ecology Progress Series. 548,(2016).
Instream flows: new tools to quantify water quality conditions for returning adult Chinook salmon. Journal of Water Resources Planning and Management.(2015).
Impending extinction of salmon, steelhead, and trout (Salmonidae) in California. Environmental Biology of Fishes. 96, 1169-1186.(2013).
In bad waters: Water year classification in nonstationary climates. Water Resources Research. 49(February 2013), 1137-1148.(2013).
Impending extinction of salmon, steelhead, and trout (Salmonidae) in California. Environmental Biology of Fishes.(2012).
Identifying the Sources of Nitrate to a Deep Municipal Water Supply Well Using Stable Isotopes of Nitrate, Groundwater Age Dating and Depth-Specific Sampling.(2011).
Improved agricultural water use modeling in California using remote sensing. Bay-Delta Science Conference 2010.(2010).
Isotope tracking of terrestrial and freshwater vertebrates. (Bowen, G., Dawson T., & Tu K., Ed.).Isoscapes: Understanding movement patterns and processes on earth through isotope mapping.(2010).
Insights for Integrated Management and Adaptation to Climate Change. 13th IWRA World Water Congress.(2008).
Identifying the contribution of wild and hatchery Chinook salmon (Oncorhynchus tshawytscha) to the ocean fishery using otolith microstructure as natural tags. Canadian Journal of Fisheries and Aquatic Sciences. 64,(2007).
The influence of relative sediment supply on riverine habitat heterogeneity. Geomorphology. 80, 310-324.(2006).
The Imperiled Giants of the Mekong: Ecologists struggle to understand—and protect—Southeat Asia's large migratory catfish. American Scientist. 92(3), 228-237.(2004).
Invasive species profiling? Exploring the characteristics of non-native fishes across invasion stages in California. Freshwater Biology. 49(5), 646–661.(2004).
Impact: Toward a Framework for Understanding the Ecological Effects of Invaders. Biological Invasions. 1(1), 3-19.(1999).
The importance of an historical perspective: Fish introductions.. Fisheries. 22(10), 14.(1997).
Invading species in the Eel River, California: successes, failures, and relationships with resident species. Environmental Biology of Fishes. 49(3), 271-291.(1997).
Interactions between stochastic and deterministic processes in stream fish community assembly. Environmental Biology of Fishes. 36(1), 1-15.(1993).
Invasion Resistance to Introduced Species by a Native Assemblage of California Stream Fishes. Ecological Applications. 3(2), 246-255.(1993).
Implications of morphological variation among populations of California roach Lavinia symmetricus (Cyprinidae) for conservation policy. Biological Conservation. 62(1), 1 - 10.(1992).
Introduction to fish imagery in art. Environmental Biology of Fishes. 31(1), 5-23.(1991).
Influence of Temperature on Microhabitat Choice by Fishes in a California Stream. Transactions of the American Fisheries Society. 116(1), 12-20.(1987).
Introduced Species and Vacant Niches. The American Naturalist. 128(5), 751-760.(1986).
The influence of riparian vegetation on stream fish communities of California. (Warner, P., & Hendrix H., Ed.).California Riparian Systems. 183-187.(1982).
The Impact of Squawfish on Salmonid Populations: A Review. North American Journal of Fisheries Management. 1(2), 104-111.(1981).
In defense of sculpins. Fisheries . 2(1), 20-23.(1977).