HOLISTIC COMPRESSION OF THE FUNCTIONING AND RESILIENCE OF A MARINE FANEROGAMA TO LOCAL DISTURBANCES: FROM MOLECULAR SCALES TO BIOGEOGRAPHIC SCALES (Q3148331)
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Project Q3148331 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | HOLISTIC COMPRESSION OF THE FUNCTIONING AND RESILIENCE OF A MARINE FANEROGAMA TO LOCAL DISTURBANCES: FROM MOLECULAR SCALES TO BIOGEOGRAPHIC SCALES |
Project Q3148331 in Spain |
Statements
76,835.0 Euro
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153,670.0 Euro
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50.0 percent
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1 January 2015
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31 December 2019
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UNIVERSIDAD DE LAS ISLAS BALEARES
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39°40'9.26"N, 2°34'39.22"E
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07020
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EL RENDIMIENTO FISIOLOGICO Y ECOLOGICO DE 'INGENIEROS ECOSISTEMICOS' (E.G. FANEROGAMAS MARINAS, KELPS, CORALES) CAMBIA DESDE ESCALAS LOCALES A BIOGEOGRAFICAS, EN RESPUESTA A EVENTOS PASADOS Y CONTEMPORANEOS. LA COMPRENSION DE LA RESILENCIA DE DICHOS 'INGENIEROS ECOSISTEMICOS' ES PARTICULARMENTE IMPORTANTE, YA QUE EL TIPO Y NUMERO DE PERTURBACIONES DE ORIGEN ANTROPICO HA AUMENTADO DE MANERA DRAMATICA Y EL CAMBIO GLOBAL ESTA, AL MISMO TIEMPO, IMPONIENDO ALTOS NIVELES DE ESTRES. LOS ELEMENTOS QUE CONTRIBUYEN A LA RESILENCIA DE LOS 'INGENIEROS ECOSISTEMICOS' SON BASICAMENTE DESCONOCIDOS Y, POR TANTO, REPRESENTAN ACTUALMENTE UN DESAFIO PARA LA ECOLOGIA. EL OBJETIVO DE ESTA PROPUESTA ES DETERMINAR EMPIRICAMENTE SI LA DIVERSIDAD GENETICA, LA VERSATILIDAD FISIOLOGICA Y LA ESTABILIDAD Y RESILENCIA DE UN 'INGENIERO ECOSISTEMICO' (EN ESTE CASO, LA FANEROGAMA MARINA CYMODOCEA NODOSA) ESTAN CONECTADOS DE ESCALAS LOCALES A BIOGEOGRAFICAS. LAS IMPLICACIONES DE ESTA PROPUESTA SON RELEVANTES DESDE EL PUNTO DE VISTA DE LA CONSERVACION; SI ESTE ESTUDIO DEMUESTRA QUE LA RESILENCIA DE LAS ESPECIES CAMBIA A LO LARGO DE SU RANGO DE DISTRIBUCION, LAS POLITICAS DE CONSERVACION DEBERIAN DE ADAPTARSE A DIFERENTES REGIONES DE ACUERDO A LA CAPACIDAD DE LAS ESPECIES PARA SOBREPONERSE A PERTURBACIONES. (Spanish)
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THE PHYSIOLOGICAL AND ECOLOGICAL PERFORMANCE OF ‘ECOSYSTEMIC ENGINEERS’ (E.G. MARINE FANEROGAMAS, KELPS, CORALS) CHANGES FROM LOCAL TO BIOGEOGRAPHIC SCALES, IN RESPONSE TO PAST AND CONTEMPORARY EVENTS. THE UNDERSTANDING OF THE RESILIENCE OF SUCH ‘ECOSYSTEM ENGINEERS’ IS PARTICULARLY IMPORTANT, AS THE TYPE AND NUMBER OF DISTURBANCES OF ANTROPIC ORIGIN HAS INCREASED DRAMATICALLY AND GLOBAL CHANGE IS AT THE SAME TIME IMPOSING HIGH LEVELS OF STRESS. THE ELEMENTS THAT CONTRIBUTE TO THE RESILIENCE OF ‘ECOSYSTEMIC ENGINEERS’ ARE BASICALLY UNKNOWN AND THEREFORE PRESENTLY REPRESENT A CHALLENGE FOR ECOLOGY. THE OBJECTIVE OF THIS PROPOSAL IS TO DETERMINE EMPIRICALLY WHETHER GENETIC DIVERSITY, PHYSIOLOGICAL VERSATILITY AND THE STABILITY AND RESILIENCE OF AN ‘ECOSYSTEM ENGINEER’ (IN THIS CASE, FANEROGAMA MARINA CYMODOCEA NODOSA) ARE CONNECTED FROM LOCAL SCALES TO BIOGEOGRAPHICS. THE IMPLICATIONS OF THIS PROPOSAL ARE RELEVANT FROM THE PERSPECTIVE OF THE CONSERVATION; IF THIS STUDY SHOWS THAT THE RESILIENCE OF SPECIES CHANGES THROUGHOUT THEIR RANGE OF DISTRIBUTION, CONSERVATION POLICIES SHOULD BE ADAPTED TO DIFFERENT REGIONS ACCORDING TO THE ABILITY OF SPECIES TO OVERCOME DISTURBANCES. (English)
12 October 2021
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Esporles
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Identifiers
CGL2014-58829-C2-2-R
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