RESUMO
Response diversity increases the potential 'options' for ecological communities to respond to stress (i.e. response capacity). An indicator of community response diversity is the diversity of different traits associated with their capacity to be resistant to stress, to recover and to regulate ecosystem functions. We conducted a network analysis of traits using benthic macroinvertebrate community data from a large-scale field experiment to explore the loss of response diversity along environmental gradients. We elevated sediment nutrient concentrations (a process that occurs with eutrophication) at 24 sites (in 15 estuaries) with varying environmental conditions (water column turbidity and sediment properties). Macroinvertebrate community response capacity to nutrient stress was dependent on the baseline trait network complexity in the ambient community (i.e. non-enriched sediments). The greater the complexity of the baseline network, the less variable the network response to nutrient stress was; in contrast, more variable responses to nutrient stress occurred with simpler networks. Thus, stressors or environmental variables that shift baseline network complexity also shift the capacity for these ecosystems to respond to additional stressors. Empirical studies that explore the mechanisms responsible for loss of resilience are essential to inform our ability to predict changes in ecological states.
Assuntos
Ecossistema , Sedimentos Geológicos , Sedimentos Geológicos/análise , Biota , Estuários , Eutrofização , Monitoramento AmbientalRESUMO
Despite a long history of disturbance-recovery research, we still lack a generalizable understanding of the attributes that drive community recovery potential in seafloor ecosystems. Marine soft-sediment ecosystems encompass a range of heterogeneity from simple low-diversity habitats with limited biogenic structure, to species-rich systems with complex biogenic habitat structure. These differences in biological heterogeneity are a product of natural conditions and disturbance regimes. To search for unifying attributes, we explore whether a set of simple traits can characterize community disturbance-recovery potential using seafloor patch-disturbance experiments conducted in two different soft-sediment landscapes. The two landscapes represent two ends of a spectrum of landscape biotic heterogeneity in order to consider multi-scale disturbance-recovery processes. We consider traits at different levels of biological organization, from the biological traits of individual species, to the traits of species at the landscape scale associated with their occurrence across the landscape and their ability to be dominant. We show that in a biotically heterogeneous landscape (Kawau Bay, New Zealand), seafloor community recovery is stochastic, there is high species turnover, and the landscape-scale traits are good predictors of recovery. In contrast, in a biotically homogeneous landscape (Baltic Sea), the options for recovery are constrained, the recovery pathway is thus more deterministic and the scale of recovery traits important for determining recovery switches to the individual species biological traits within the disturbed patch. Our results imply that these simple, yet sophisticated, traits can be effectively used to characterize community recovery potential and highlight the role of landscapes in providing resilience to patch-scale disturbances.
RESUMO
Mangroves harbor diverse invertebrate communities, suggesting that macroecological distribution patterns of habitat-forming foundation species drive the associated faunal distribution. Whether these are driven by mangrove biogeography is still ambiguous. For small-bodied taxa, local factors and landscape metrics might be as important as macroecology. We performed a meta-analysis to address the following questions: (1) can richness of mangrove trees explain macroecological patterns of nematode richness? and (2) do local landscape attributes have equal or higher importance than biogeography in structuring nematode richness? Mangrove areas of Caribbean-Southwest Atlantic, Western Indian, Central Indo-Pacific, and Southwest Pacific biogeographic regions. We used random-effects meta-analyses based on natural logarithm of the response ratio (lnRR) to assess the importance of macroecology (i.e., biogeographic regions, latitude, longitude), local factors (i.e., aboveground mangrove biomass and tree richness), and landscape metrics (forest area and shape) in structuring nematode richness from 34 mangroves sites around the world. Latitude, mangrove forest area, and forest shape index explained 19% of the heterogeneity across studies. Richness was higher at low latitudes, closer to the equator. At local scales, richness increased slightly with landscape complexity and decreased with forest shape index. Our results contrast with biogeographic diversity patterns of mangrove-associated taxa. Global-scale nematode diversity may have evolved independently of mangrove tree richness, and diversity of small-bodied metazoans is probably more closely driven by latitude and associated climates, rather than local, landscape, or global biogeographic patterns.
RESUMO
Abstract Encope emarginata (Leske, 1778) are frequently observed aggregated in the sediment and variations in its spatial patterns of distribution may be a function of changes on local hydrodynamic regime. Tiny crabs, Dissodactylus crinitichelis Moreira, 1901 living associate with these irregular echinoids. It is unclear whether the presence of crabs can affect the fitness of hosts and if this effect may be dependent on the abundance of crabs that a sand dollar is capable of hosting. If we consider that sand dollars act as substrate for symbionts then, they are subject to intraspecific competition for space. Based on this assumption, we hypothesize that the abundance of crabs will be positively correlated with sand dollar size. Two sampling campaigns were made, one in September - 2011 and other in May - 2012. Sand dollars were counted and measured in situ at the tidal flat in front of Cobras' Island (25° 29' 5" S - 48° 25' 48" W) in the Paranaguá Bay - Southern, Brazil. Four parallel transects were distributed between depths of 0.5 to 2 m and the number of individuals were counted in a sample area of 4 m². In another moment, 164 sand dollars and their symbionts were measured. We observed 906 specimens of E. emarginata (558 in Sep / 11 and 348 in May / 12). Sand dollar densities range from zero to 20 ind. 4 m-², and had an aggregate distribution pattern with patches of different densities within transects and periods (F2, 15 = 9.466, p < 0.01). Patches were observed near to the coast in Sep / 11 compared with May / 12. The symbionts D. crinitichelis present a more variable distribution pattern if compared with sand dollars. In Sep / 11, crabs were clumped distributed as well as sand dollars. On the other hand, in May / 12 D. crinitichelis was random distributed, displaying a distinct pattern than those observed for E. emarginata hosts. No relationship between size of E. emarginata and the number symbionts was observed (Longitudinal axes: r = - 0.021, p < 0.05; Transverse axes: r = - 0.017, p > 0.05), refuting the hypothesis that space is a limiting resource for the crabs. On the contrary, distribution patterns of D. crinitichelis were seemingly influenced by the distribution of their host population, rather than by one single host specimen. This suggests that other factors (e.g., the spatial distribution and connectivity between patches within a population of sand dollars) may be more important for the population dynamics of D. crinitichelis than competition for space per se. Rev. Biol. Trop. 63 (Suppl. 2): 209-220. Epub 2015 June 01.
Resumen Encope emarginata se agrupa con frecuencia y las variaciones observadas en los sedimentos y en sus patrones espaciales de distribución pueden ser en función de los cambios en el régimen hidrodinámico local. Asociados con estos equinoideos irregulares viven pequeños cangrejos Dissodactylus crinitichelis. Si se considera que los equinoideos actúan como sustrato para sus simbiontes, estos están sujetos a competición intraespecífica por espacio. Basándose en esta suposición, fue creada la hipótesis de que la abundancia de cangrejos y el tamaño del equinoideo se correlacionan positivamente. Se hicieron dos muestreos, uno en septiembre de 2011 y otro en mayo de 2012. Los equinoideos fueron contados y medidos in situ, en la llanura de marea frente a Isla de las Cobras (25° 29' 5" S - 48° 25' 48" W) en la Bahía de Paranaguá - Sur, Brasil. Fueron distribuidos cuatro transectos en paralelo a la playa entre profundidades de 0,5 a 2m, y el número de organismos se contaron en un área de 4 m-2. Después, 164 equinoideos se midieron aleatoriamente (ejes longitudinales y transversales en la vista oral) y la cantidad de simbiontes por anfitrión fue contada. Observamos 906 especímenes de E. emarginata (558 en septiembre / 11 y 348 en mayo / 12), las densidades de equinoideos van de cero a 20 ind.4m-2. Los equinoideos siguieron un patrón de distribución agrupado con manchas de diferentes densidades dentro de los transectos y puntos (F2, 15 = 9.466, p < 0.01). En septiembre / 11 fueron observadas manchas más cerca de la costa en comparación con mayo / 12. El simbionte D. crinitichelis muestra un patrón de distribución más variable cuando se compara con sus anfitriones. En septiembre / 11 los cangrejos eran agrupados, así como los equinoideos. Mientras en mayo / 12 D. crinitichelis se distribuyeron al azar, mostrando un patrón distinto de que los observados para E. emarginata. No se observó relación entre el tamaño de E. emarginata y el número de simbiontes (eje longitudinal: r = - 0.021, p < 0.05; eje transversal: r = - 0.017, p > 0.05), rechazando la hipótesis de que espacio es un recurso limitante para los cangrejos. Al contrario, los patrones de distribución de D. crinitichelis fueron aparentemente influenciados por la distribución de la población de los anfitriones, en lugar de por un solo espécimen. Esto sugiere que otros factores (por ejemplo, la distribución espacial y la conectividad entre manchas en las poblaciones de equinoideos) pueden ser más importantes para la dinámica poblacional de D. crinitichelis de que la competición por espacio en sí.
