RESUMEN
Introduction: There are problems and puzzles in understanding reproduction, growth and mortality in echinoderm life cycles. Objective: Explore problems and puzzles in life cycles that are important and challenging. Methods: The literature is used to elucidate problems associated with all life stages. Results: Sources of larvae that settle at a site are explored using oceanographic modelling and genetic methods. There are few studies that have estimated larval mortality in the plankton under field conditions and results differ from experimental results or patterns of settlement. In a small number of studies, mortality rate of newly settled larvae appears to change rapidly as individuals grow. There are problems measuring size, and measurement bias that interferes with many tagging methods used to estimate growth. There also are problems with the use of natural growth lines and commonly used software to estimate both growth and mortality from size-frequency data. An interesting puzzle is that echinoderms may show negative senescence with mortality rate decreasing with size. There is a problem in fertilization success based on density so there should not be rare species where sexes are separate with free spawning of gametes yet there seem to be rare echinoderms. Conclusions: All parts of echinoderm life cycles provide problems and puzzles that are important and challenging.
Introducción: Existen problemas y acertijos en la comprensión de la reproducción, el crecimiento y la mortalidad en los ciclos de vida de los equinodermos. Objetivo: Explorar los problemas y acertijos en los ciclos de vida que son importantes y desafiantes. Métodos: La literatura es usada para dilucidar los problemas asociados con todas las etapas de vida. Resultados: Las fuentes de larvas que se asientan en un sitio se exploran usando modelos oceanográficos y métodos genéticos. Existen pocos estudios que han estimado la mortalidad larval del plancton bajo condiciones de campo y los resultados difieren de los resultados experimentales o los patrones de asentamiento. En un número pequeño de estudios, la tasa de mortalidad de las larvas recién asentadas parece cambiar rápidamente a medida que los organismos crecen. Existen problemas para medir tamaños y el sesgo de medición interfiere con el uso de muchos métodos de marcado para estimar el crecimiento. También hay problemas con el uso de las líneas de crecimiento natural y con los programas comúnmente usados para estimar tanto el crecimiento como la mortalidad a partir de datos de frecuencia de tamaño. Un acertijo interesante es que los equinodermos pueden mostrar senescencia negativa con una tasa de mortalidad que disminuye con el tamaño. Existe un problema con el éxito de la fertilización basado en la densidad, por lo que no debería haber especies raras cuando los sexos están separados y existe un desove libre de gametos, sin embargo, parece haber equinodermos raros. Conclusiones: Todas las partes de los ciclos de vida de los equinodermos proveen problemas y acertijos que son importantes y desafiantes.
Asunto(s)
Animales , Plancton , Equinodermos/genética , Estadios del Ciclo de Vida , Equinodermos/anatomía & histologíaRESUMEN
Size, growth, and density have been studied for North American Pacific coast sea urchins Strongylocentrotus purpuratus, S. droebachiensis, S. polyacanthus, Mesocentrotus (Strongylocentrotus) franciscanus, Lytechinus pictus, Centrostephanus coronatus, and Arbacia stellata by various workers at diverse sites and for varying lengths of time from 1956 to present. Numerous peer-reviewed publications have used some of these data but some data have appeared only in graduate theses or the gray literature. There also are data that have never appeared outside original data sheets. Motivation for studies has included fisheries management and environmental monitoring of sewer and power plant outfalls as well as changes associated with disease epidemics. Studies also have focused on kelp restoration, community effects of sea otters, basic sea urchin biology, and monitoring. The data sets presented here are a historical record of size, density, and growth for a common group of marine invertebrates in intertidal and nearshore environments that can be used to test hypotheses concerning future changes associated with fisheries practices, shifts of predator distributions, climate and ecosystem changes, and ocean acidification along the Pacific Coast of North America and islands of the north Pacific. No copyright restrictions apply. Please credit this paper when using the data.