Jim Beets
Jacksonville University
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Featured researches published by Jim Beets.
Environmental Biology of Fishes | 1999
Jim Beets; Alan M. Friedlander
Many tropical reef fishes spawn in large aggregations, which are readily targeted by fishers. By the 1980s, at least two grouper spawning aggregations were eliminated by intensive fishing off the island of St. Thomas, U.S. Virgin Islands, and another aggregating species, red hind, was intensively targeted. By 1988, the average length of red hind had greatly decreased to 295 mm, and the sex ratio was extremely skewed to 15 females per male, suggesting a heavily fished stock. Since this species is a protogynous hermaphrodite, the loss of large individuals (primarily males) could potentially result in sperm limitation in spawning aggregations. In 1990, a spawning aggregation closure was implemented. By 1997, average size of red hind had increased to 395 mm and sex ratio had shifted to 4 females per male. Fish were observed aggregating only in structurally complex habitat along the insular shelf edge. This habitat type is apparently not common along most of the shelf edge off St. Thomas and may provide shelter while reducing risk of predation during aggregation periods. These data suggest that protection of spawning aggregations is a sound management strategy with considerable potential for aiding the sustainable use of reef fish resources.
Environmental Conservation | 2001
Caroline S. Rogers; Jim Beets
The large number of marine protected areas (MPAs) in the Caribbean (over 100) gives a misleading impression of the amount of protection the reefs and other marine resources in this region are receiving. This review synthesizes information on marine resources in two of the first MPAs established in the USA, namely Virgin Islands National Park (1962) and Buck Island Reef National Monument (1961), and provides compelling evidence that greater protection is needed, based on data from some of the longest running research projects on coral reefs, reef fish assemblages, and seagrass beds for the Caribbean. Most of the stresses affecting marine resources throughout the Caribbean (e.g. damage from boats, hurricanes and coral diseases) are also causing deterioration in these MPAs. Living coral cover has decreased and macroalgal cover has increased. Seagrass densities have decreased because of storms and anchor damage. Intensive fishing in the US Virgin Islands has caused loss of spawning aggregations and decreases in mean fish size and abundance. Groupers and snappers are far less abundant and herbivorous fishes comprise a greater proportion of samples than in the 1960s. Effects of intensive fishing are evident even within MPA boundaries. Although only traditional fishing with traps of ‘conventional design’ is allowed, commercial trap fishing is occurring. Visual samples of fishes inside and outside Virgin Islands National Park showed no significant differences in number of species, biomass, or mean size of fishes. Similarly, the number of fishes per trap was statistically similar inside and outside park waters. These MPAs have not been effective because an unprecedented combination of natural and human factors is assaulting the resources, some of the greatest damage is from stresses outside the control of park managers (e.g. hurricanes), and enforcement of the few regulations has been limited. Fully functioning MPAs which prohibit fishing and other extractive uses (e.g. no-take marine reserves) could reverse some of the degradation, allowing replenishment of the fishery resources and recovery of benthic habitats.
Environmental Biology of Fishes | 1992
Les Kaufman; John P. Ebersole; Jim Beets; Carole C. McIvor
SynopsisRecent studies of recruitment dynamics in demersal fishes have placed major emphasis on presettlement mortality, and little on events bridging late larval and early juvenile periods. Observations on 68 taxa of Caribbean coral reef fishes before and during settlement revealed the existence of a distinct post-settlement life phase called the transition juvenile, associated with the act of recruitment. Transition juveniles were found as solitary individuals, in conspecific groups, or in heterospecific groups. The groups were either uniform or heterogenous in appearance. The complexity of the transition phase and its apparently widespread occurrence in coral reef fishes suggests that important aspects of population structure may be determined between settlement and first appearance as a full-fledged juvenile.
Fisheries Management and Ecology | 2007
Mark E. Monaco; Alan M. Friedlander; Chris Caldow; John D. Christensen; Caroline S. Rogers; Jim Beets; Jeff Miller; Rafe H. Boulon
Archive | 2006
Charles W. Menza; Jerald S. Ault; Jim Beets; James A. Bohnsack; Chris Caldow; John D. Christensen; Alan M. Friedlander; Chris Jeffrey; Matt S. Kendall; Jiangang Luo; Mark E. Monaco; Steven G. Smith; Kimberly Woody
Archive | 2007
Tom Ogawa; Todd Calitri; Bruce Anderson; Matt Lange; Kevin M. Kelley; Alan M. Friedlander; Jim Beets; Brian W. Bowen; Jennifer E. Caselle; Christopher G. Lowe
Revista De Biologia Tropical | 2017
Virginia H. Garrison; Caroline S. Rogers; Jim Beets
Archive | 2010
Jim Beets; Eric K. Brown; Alan M. Friedlander
Archive | 2013
Alan M. Friedlander; Mark E. Monaco; Randy Clark; Simon J. Pittman; Jim Beets; Rafe Boulon; Russell Callender; John D. Christensen; Sarah D. Hile; Matt S. Kendall; Jeff Miller; Caroline S. Rogers; Kosta Starnoulis; Lisa M. Wedding; Kimberly Roberson
Archive | 1994
Jim Beets; Alan M. Friedlander; W. Tobias