Carles Feo scite author profile

Species invasion is one of the leading mechanisms of global environmental change, particularly in freshwater ecosystems. We used the Food and Agriculture Organization's Database of Invasive Aquatic Species to study invasion rates and to analyze invasion pathways within Europe. Of the 123 aquatic species introduced into six contrasting European countries, the average percentage established is 63%, well above the 5%-20% suggested by Williamson's "tens" rule. The introduction and establishment transitions are independent of each other, and species that became widely established did so because their introduction was attempted in many countries, not because of a better establishment capability. The most frequently introduced aquatic species in Europe are freshwater fishes. We describe clear introduction pathways of aquatic species into Europe and three types of country are observed: "recipient and donor" (large, midlatitude European countries, such as France, the United Kingdom, and Germany, that give and receive the most introductions), "recipient" (most countries, but particularly southern countries, which give few species but receive many), and "neither recipient nor donor" (only two countries). A path analysis showed that the numbers of species given and received are mediated by the size (area) of the country and population density, but not gross domestic product per capitaFinancial support was provided by the Spanish Ministry of Science and Technology (REN2002-10059-E and REN2003-00477) and the Catalan Ministry of Universities, Research and Information Society (Catalan Government Distinction Award for University Research 2004 to E.G.B.

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Man-made Mediterranean temporary ponds as a tool for amphibian conservation

Ruhí

Sebastián

Feo

et al. 2012

Ann. Limnol. - Int. J. Lim.

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-Mediterranean temporary ponds (MTPs) are crucial breeding sites for local amphibians, a faunal group in decline in the Mediterranean mainly due to wetland destruction. Although the disappearance of lentic habitats in other regions of the world has been ameliorated by the creation and restoration of wetlands, these tactics remain untested in Mediterranean wetlands. To evaluate the amphibian colonization dynamics of artificial MTPs in the north-eastern Iberian Peninsula, we monitored two artificial MTPs (one in a highdiversity area and the other in a low-diversity area) over 2 years. We selected reference wetlands at each area, and amphibian communities of man-made MTPs were compared to those of reference wetlands. We found that, beginning in the first year, artificial MTPs were a valuable habitat for regional amphibian fauna. Posteriorly, we focused on the reproductive success of the natterjack toad, Bufo calamita. Using a drift fence equipped with pit-fall traps, we measured the abundance of both reproductive adults entering the pond and post-metamorphic individuals exiting the pond. Using mark-recapture methods, we analyzed the time and energy costs associated with reproduction in the artificial MTPs. We observed a highly variable colonization dynamics between sites, between hydroperiods, and within hydroperiods, and these dynamics often depended on meteorological factors. Our results suggest that even at a short timescale, native amphibian species such as B. calamita can benefit from wetland creation in the Mediterranean region.

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Who wins in the weaning process? Juvenile feeding morphology of two freshwater mussel species

Araújo

Campos²,

Feo³

et al. 2017

Journal of Morphology

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The global decline of freshwater mussels can be partially attributed to their complex life cycle.Their survival from glochidium to adulthood is like a long obstacle race, with juvenile mortality as a key critical point. Mass mortality shortly after entering into a juvenile state has been reported in both wild and captive populations, thus weakening the effective bivalve population. A similar phenomenon occurs during metamorphosis in natural and hatchery populations of juvenile marine bivalves. Based on a morphological analysis using scanning electron microscopy of newly formed juveniles of the freshwater species Margaritifera margaritifera (L.) (Margaritiferidae) and Unio mancus Lamarck (Unionidae), we show that a second metamorphosis, consisting of drastic morphological changes, occurs that leads to suspension feeding in place of deposit feeding by the ciliated foot. We hypothesize that suspension feeding in these two species improves due to a gradual development of several morphological features including the contact between cilia of the inner gill posterior filaments, the inner gill reflection, the appearance of the ctenidial ventral groove and the formation of the pedal palps. Regardless of the presence of available food, a suspension feeding mode replaces deposit feeding, and juveniles unable to successfully transition morphologically or adapt to the feeding changes likely perish. K E Y W O R D Sbiodiversity conservation, development, juvenile mortality, metamorphosis

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Presence of the alien chinese pond mussel <i>Anodonta woodiana</i> (Lea, 1834) (Bivalvia, Unionidae) in the Iberian Peninsula

Pou‐Rovira¹,

Araújo²,

Boix³

et al. 2009

GRAELLSIA

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Carles Feo

Introduction pathways and establishment rates of invasive aquatic species in Europe

Man-made Mediterranean temporary ponds as a tool for amphibian conservation

Who wins in the weaning process? Juvenile feeding morphology of two freshwater mussel species

Presence of the alien chinese pond mussel <i>Anodonta woodiana</i> (Lea, 1834) (Bivalvia, Unionidae) in the Iberian Peninsula

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