Elizabeth A. Chornesky scite author profile

Coral reefs of north Jamaica, normally sheltered, were severely damaged by Hurricane Allen, the strongest Caribbean hurricane of this century. Immediate studies were made at Discovery Bay, where reef populations were already known in some detail. Data are presented to show how damage varied with the position and orientation of the substraturn and with the shape, size, and mechanical properties of exposed organisms. Data collected over succeeding weeks showed striking differences in the ability of organisms to heal and survive.

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Directing Research to Reduce the Impacts of Nonindigenous Species

Byers¹,

Reichard

Randall

et al. 2002

Conservation Biology

389

309

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Management of nonindigenous species is a crucial aspect of maintaining native biodiversity and normal ecosystem functions. We attempt to guide researchers in developing projects that will be of use to conservation practitioners, tangibly improving applied conservation measures. We advocate a directed approach for conservation research to aid in prioritizing nonindigenous species for intervention by resource managers. This approach includes outlining what needs to be known to make such relative judgments about the impacts of nonindigenous species and the most promising methods by which to obtain such information. We also address active measures that should be taken once priorities have been set, highlighting the roles of risk assessment and research in improving control efforts. Ultimately, a better match between research and practical conservation needs should result in more effective reduction of the effects of nonindigenous species on native species. Dirección de la Investigación para Reducir los Efectos de Especies ExóticasResumen: El manejo de especies exóticas es un aspecto crucial para el mantenimiento de la biodiversidad nativa y de las funciones normales de un ecosistema. Intentamos guiar a los investigadores para desarrollar proyectos que serían de uso para los practicantes de la conservación, mejorando tangiblemente las medidas de conservación aplicada. Apoyamos una estrategia dirigida de investigación para la conservación para ayudar a priorizar especies exóticas para la intervención de los manejadores de recursos. Esta estrategia incluye delinear lo que se necesita saber para hacer juicios relativos sobre los impactos de especies exóticas y los métodos más promisorios para obtener dicha información. También nos abocamos a las medidas activas que deberían ser tomadas una vez que se establezcan las prioridades, subrayando los papeles de la evaluación de riesgo y la investigación para mejorar los esfuerzos de control. A fin de cuentas, la mejor conjun- Byers et al. Reducing Invader Impact 631 ción de la investigación con las necesidades de conservación práctica debe resultar en una reducción más efectiva de los efectos de las especies exóticas sobre las especies nativas.

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Ecology for a Crowded Planet

Palmer

Bernhardt

Chornesky

et al. 2004

Science

454

248

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SEXUAL REPRODUCTION AND COLONY GROWTH IN THE SCLERACTINIAN CORALPORITES ASTREOIDES

Chornesky¹,

Peters²

1987

The Biological Bulletin

164

101

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This study examines patterns of sexual reproduction and colony growth for Porites astreoides Lamarck, an abundant Caribbean reef coral. Five factors influence the reproductive condition of this coral in Jamaica: (i) Season, (ii) lunar day, (iii) polyp location within a colony, (iv) colony size, and (v) colony age. P. astreoides has an unusual mixed breeding system: Approximately half of colonies are hermaphroditic and half are female. Although gonads occur in some colonies throughout the year, there are clear seasonal differences both in the number of reproductive colonies within the population and in colony fecundity. Male gametes are spawned monthly around the time of the full moon. The abundance and maturity of brooded larvae peaks prior to the new moon. Within reproductive colonies, gonads and brooded larvae are more abundant in central polyps than at colony edges. Among female colonies, the onset of reproduction is apparently related to colony size, whereas the fecundity of individual polyps is related to colony age. Hermaphroditic and female colonies differ in the size at which most colonies are reproductive. Rates of vertical and lateral growth for P. astreoides increase with colony size, but not with colony age. These findings demonstrate how the combined effects of several variables can cause individuals within a population to differ greatly in reproductive condition, fecundity, and growth rate.

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INDUCED DEVELOPMENT OF SWEEPER TENTACLES ON THE REEF CORAL AGARICIA AGARICITES: A RESPONSE TO DIRECT COMPETITION

Chornesky¹

1983

The Biological Bulletin

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The scleractinian coral Agaricia agaricites often has elongate sweeper tentacles on colony margins close to other sessile animals. Sweeper tentacles can damage tissues of opponents and are probably used in direct competition for substrate space. Furthermore, contact with tissues or mesenterial filaments of other corals, or with tissues of the gorgonian Erythropodium caribaeorum or the zooanthid Palythoa caribbea can stimulate the development of sweeper tentacles by A. agaricites. Depending on both the particular competitor species involved and the distance separating it from A. agaricites, events leading to the development of sweeper tentacles may or may not include tissue loss by A. agaricites. On average the development of sweeper tentacles takes thirty days, and is localized exclusively on tissues close to the region in contact with competitors. Sweeper tentacles do not develop in response to artificial stimuli simulating tactile contact or damage such as occur in natural interactions with other corals. Thus, recognition of competitor tissues appears to be a necessary stimulus for sweeper formation.

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