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4 results on '"Hovel KA"'

2. ERRATUM

Author

Castorani, MCN, Hovel, KA, Williams, SL, and Baskett, ML

Subjects
Ecological Applications, Ecology, Evolutionary Biology
Published
2015

3. Movement and home range of pink abalone Haliotis corrugata: implications for restoration and population recovery

Author

Coates, JH, Hovel, KA, Butler, JL, Klimley, AP, and Morgan, SG

Subjects
Movement, Restoration, Homing, Broadcast spawning, Allee effect, Translocation, Oceanography, Ecology, Zoology, Marine Biology & Hydrobiology
Abstract

Densities of abalone in southern California have been dramatically reduced by overfishing and disease, leading to the collapse of some populations, and low fertilization rates may be hindering population recovery. This is a pattern typical of abalone species globally. However, movement may produce clustered distributions that promote fertilization success in broadcast spawners, such as abalone, even at low regional densities. We translocated wild, adult pink abalone Haliotis corrugata to an existing pink abalone patch to create a high-density aggregation, and then used acoustic telemetry to characterize abalone movement and monitor aggregation maintenance for a period of 14 mo in the Point Loma kelp forest near San Diego, California. Abalone showed a minimal flight response to handling that did not differ between the resident or translocated groups. Most individuals exhibited small home ranges (median area 183 m2) and homing behavior consisting of regular back-and-forth movement to a single point. Nomadic movement was also observed in several individuals. Though site fidelity may help maintain aggregations, abalone density decreased, and nearest neighbor distances increased at our site to nearinitial levels after 18 mo via a combination of mortality, large movements of a few individuals, and small, incremental movements of most individuals. No coordinated movements that would suggest spawning behavior were observed. Translocation of wild abalone to produce aggregations may not result in high rates of fertilization success that promote population recovery. However, the homing behavior observed may provide more opportunities for mating than expectations based on static measures of density and aggregation state. © Inter-Research 2013.

Published
2013

4. Planktivory as a selective force for reproductive synchrony and larval migration

Author

Hovel, KA and Morgan, SG

Subjects
Marine Biology & Hydrobiology, Oceanography, Ecology, Zoology
Abstract

Diurnally foraging planktivorous fishes are exceptionally dense in marshes worldwide, and larvae of most species of marsh crabs largely may escape predation in time and space by hatching during nocturnal maximum amplitude high tides (NMAHT) when they are rapidly transported to deeper waters under the cover darkness. Species that have long spines or other well-developed larval defenses may be less constrained to release larvae during this safe period. Three species of diurnally foraging planktivorous fishes (Menidia menidia, Fundulus heteroclitus, F. majalis) were very abundant and comprised nearly all of the fishes collected in Flax Pond salt marsh in New York, USA, during the summer of 1994. Four species of crabs (Sesarma reticulatum, Uca pugnax, U. pugilator, Dyspanopeus sayi) also were abundant there and released larvae from mid June to September. These crabs did not release larvae randomly, rather larval release peaked during NMAHT when strong ebb tides transported 97.7% of the larvae from the marsh by the following day. Larvae that were released during nocturnal minimum amplitude high tides were transported from the marsh less effectively (84.5%). Only 0.37% of larvae remained in the marsh following the molt to the second instar. Larval release by D. sayi was weakly synchronized with the tidal amplitude cycle, and these larvae were transported from the marsh least effectively. Although D. sayi larvae that were released during NMAHT were transported from the marsh nearly as effectively as were the other species (95.6 % vs 98.0% of S. reticulatum and 99.9% of Uca spp.), more of them were released near nocturnal minimum amplitude high tide when transport was least effective (58.2% vs 86.0% of S. reticulatum and 87.5% of Uca spp.). Transport of D. sayi larvae from the marsh may have been slowed further by the tidal vertical migrations undertaken by these larvae. In feeding trials conducted in the marsh, M. menidia and F. heteroclitus ate about half as many newly released D. sayi larvae as S. reticulatum and U. pugnax larvae (57.2% vs 26.1% of S. reticulatum and 32.9% of U. pugnax). Long spines may have deterred predation on D. sayi larvae and may reduce selection for rapid transport of these larvae from the marsh. Recruitment to Flax Pond occurred during flood tides, especially strong flood tides, at night when transport to adult habitats was maximal and predation by fishes was minimal. Megalopae of all study species recruited regularly in the same relative proportions that they were released throughout the entire reproductive season, even though larvae of some of the study species (S. reticulatum, D. sayi) likely develop entirely in adjacent Long Island Sound whereas others (Uca spp.) disperse through the sound and onto the continental shelf. This suggests that reproductive and larval behaviors largely overcame mortality during the planktonic phase of the life cycle and coupled production to recruitment, regardless of whether or not recruits primarily originated from local populations. Thus, predictable variation in predation by planktivorous fishes exerts strong selective pressure on crabs that release larvae in productive shallow waters, and suites of reproductive and larval behaviors apparently have evolved that favor migration between adult and larval habitats.

Published
1997

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