Found 28 results[ Author] Title Type Year
Filters: First Letter Of Last Name is C [Clear All Filters]
Clipperton Atoll as a model to study small marine populations: Endemism and the genomic consequences of small population size.. PLoS One. 13(6):e0198901.. 2018.
Fishers’ behaviour in response to the implementation of a marine protected area. PloS one. 8:e65057.. 2013.
‘Reserve effect’within a temperate marine protected area in the north-eastern Atlantic (Arrábida Marine Park, Portugal). Mar Ecol Prog Ser. 481:11–24.. 2013.
Tropicalization of fish assemblages in temperate biogeographic transition zones. Marine Ecology Progress Series. 504:241.. 2014.
Population assessment of the endemic angelfish Holacanthus limbaughi from Île de La Passion-Clipperton Atoll (Tropical Eastern Pacific). Endangered Species Research. 38:171–176.. 2019.
Biogeographic patterns of communities across diverse marine ecosystems in southern California. Marine Ecology. 39:e12453.. 2018.
Marine management affects the invasion success of a non-native species in a temperate reef system in California, USA. Ecology Letters. :n/a–n/a.. 2017.
Early post-settlement mortality in a coral reef fish and its effect on local population size. Ecological Monographs. 69:177–194.. 1999.
Assessing changes in life history traits and reproductive function of CA sheephead across its range: historical comparisons and the effects of fishing. California Sea Grant College Program.. 2010.
CAN WE PREDICT INTERANNUAL AND REGIONAL VARIATION IN DELIVERY OF PELAGIC JUVENILES TO NEARSHORE POPULATIONS OF ROCKFISHES(GENUS SEBASTES) USING SIMPLE PROXIES OF OCEAN CONDITIONS? Reports of California Cooperative Oceanic Fisheries Investigations. 51:91–105.. 2010.
Variability in recruitment of coral reef fishes: the importance of habitat at two spatial scales. Ecology. :2488–2504.. 1996.
Northern Channel Islands: Connectivity across a network of marine protected areas contributes to positive population and ecosystem consequences. IUCN Guidelines for conserving connectivity through ecological networks and corridors.. 2020.
Geographic variation in density, demography, and life history traits of a harvested, sex-changing, temperate reef fish. Canadian Journal of Fisheries and Aquatic Sciences. 68:288–303.. 2011.
Variability in recruitment of coral reef fishes: the importance of habitat at two spatial scales. Oceanographic Literature Review. 9:987.. 1997.
First quantification of subtidal community structure at Tristan da Cunha Islands in the remote South Atlantic: from kelp forests to the deep sea. PLoS ONE. 13(3). 2018.
Supplementary data to Caselle et al. 2010. Bulletin of Marine Science. 86:355–385.. 2010.
Recovery trajectories of kelp forest animals are rapid yet spatially variable across a network of temperate marine protected areas. Scientific reports. 5. 2015.
Trash or habitat? Fish assemblages on offshore oilfield seafloor debris in the Santa Barbara Channel, California ICES Journal of Marine Science: Journal du Conseil. 59:S258–S265.. 2002.
Marine management affects the invasion success of a non-native species in a temperate reef system in California, USA. Ecology Letters. 21:43–53.. 2018.
Temporal and spatial scales of influence on nearshore fish settlement in the Southern California Bight. Bulletin of Marine Science. 86:355–385.. 2010.
The interaction of retention, recruitment, and density-dependent mortality in the spatial placement of marine reserves. Gulf and Caribbean Research. 14:107–117.. 2003.
Toward Establishing Patterns of Connectivity for Kelp Rockfish: Geographic Structure in Elemental Signatures in Larval Otoliths and a Review of Potential Proxies for Natal Signatures. of North Pacific Rockfishes: Ecological Genetics and Stock Structure. :22.. 2004.