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Habitat complexity can substantially alter trophic relationships, such as competitive and predatory interactions, between fish species. This study aimed to evaluate how trophic interactions between congeneric fish species (Serrapinnus calliurus, S. heterodon and S. notomelas) are affected by habitat complexity provided by macrophytes. The following predictions were tested: (1) the composition of the diets of congeneric fish species differs between high- and low-complexity habitats and between habitats of the same category; (2) species show higher trophic niche breadth in sites with greater habitat complexity; and (3) trophic niche overlap between congeneric species pairs is low in macrophyte stands because of greater food availability. Sampling was conducted between November 2011 and July 2012 in five floodplain lakes of the Baía River, a tributary of the upper Paraná River. The degree of habitat complexity was categorised as high (with macrophytes) or low (without macrophytes). The stomach contents of the three species sampled from sites of high- or low-complexity habitat were analysed. Diet variation depended on habitat complexity. The median trophic niche breadth of the three congeneric species was low, but their diets showed higher variability in sites of high-complexity habitat. Significant differences in trophic niche overlap were observed in two species pairs when comparing sites of high- and low-complexity habitat. Habitat complexity directly affected trophic interactions between the fish species, which may favour their coexistence through trophic niche segregation. Our study emphasises the importance of habitat complexity in mediating trophic interactions between congeneric species and clarifies the coexistence of ecologically similar fish species.

Understanding the trophic and demographic dynamics of apex predators is of paramount importance for ecosystem conservation. Apex predators are usually free from predation, and thus, the main driver of population dynamics is the availability of trophic resources, which affects breeding performance. Albeit food habits have been described in many apex species, the effects of changes in the trophic niche on long‐term demographic dynamics are poorly known. We describe the long‐term (N = 25 years) changes in trophic niche breadth of a recovering golden eagle population in a Mediterranean landscape (northern Spain) and search for potential correlates with their productivity (i.e., number of fledged eaglets per controlled pair) as a proxy for their breeding performance (N = 290 pair‐years). We identified a total of 3475 prey items from 77 species; rabbits, hares, and red‐legged partridges were the most frequent prey consumed (overall 51%), followed by roe deer (10%), red‐billed chough, red foxes, and woodpigeons, all of them with >5%. Prey diversity in eagles' diet decreased during the study period. Consumption of rabbits and roe deer increased, while that of hares and partridges decreased; no significant trends were observed in the consumption of foxes, choughs, and woodpigeons. Prey diversity and red‐legged partridge consumption were negatively correlated with productivity at the territory level, while rabbits, corvids, and pigeons showed a strong positive relationship with productivity. The size of the territory showed the strongest positive relationship with productivity, while roughness was negatively correlated. Rabbits and ungulates showed negative and positive correlations with roughness, respectively, while predator consumption exhibited a negative relationship with the size of the territory. Our findings give insights into the potential trophic mechanisms driving the dynamics of recovering apex predator populations; a reduction in the trophic niche breadth toward specific groups of prey, which could be due to a higher availability and individual specificity toward these prey species, might enhance productivity at the territory level and, ultimately, influence population dynamics facilitating the recovery process. The remarkable increase in the consumption of wild ungulates, predators, and other apex consumers suggests that the current population recovery and reduced trophic niche breadth may facilitate this eagle population to exhibit its apex role and contribute to ecosystem functionality.

Abstract Aim Studies of natural variations in fish diet allow, in turn, a better understanding of environmental changes along the hydrological cycle that can affect resources and, hence, biodiversity conservation. With this in mind, the present study aimed to understand how spatial and ontogenetic aspects (using Standard Length as proxy) define dietary composition, trophic position and trophic niche breadth for a small characid (Bryconamericus exodon) in streams located in two rivers of the Brazilian Pantanal. We also assessed whether spatial differences influence the structuring of trophic networks. Methods Fish were sampled monthly in the rainy season (October/2017 to March/2018) in four tributaries of the Negro and Apa Rivers, using different sampling methods. In the laboratory, fish were measured and weighed, followed by excision of stomach for posterior analysis. Results We analyzed 211 individuals, 126 from the Apa River (Standard lengthmin= 11.28mm; Standard lengthmax= 43.53mm) and 85 from the Negro River (Standard lengthmin= 13.26mm; Standard lengthmax= 40.05mm), that consumed mainly aquatic insects (Alimentary indexTotal= 87.97%), followed by terrestrial insects (Alimentary indexTotal= 9.02%). Dietary composition was mainly influenced by spatial variation (Pseudo-F1,194=12.21; p<0.001), followed by ontogenetic variation (Pseudo-F1,190=7.23; p<0.001), however, for trophic niche breadth, we did detect a higher importance of spatial variation (t=4.71; p<0.001) and an absence of ontogenetic variation (t=1.24; p=0.213). No spatial variation was detected for complementary specialization (p=0.998); only connectance showed a significant variation (p=0.047) with higher mean values in the Negro River (C= 0.27 ± 0.016) when compared to those of populations in the Apa River (C=0.22 ± 0.019). In addition, trophic position was not influenced by spatial (t= -1.77; p=0.077) or ontogenetic (t=0.69; p=0.494) variations. Conclusions B. exodon is considered an insectivorous species whose dietary composition can be explained more by spatial than ontogenetic variation. Resumo Objetivo O estudo das variações naturais na dieta dos peixes permite, por sua vez, uma melhor compreensão das alterações ambientais ao longo do ciclo hidrológico que podem afetar os recursos e, consequentemente, a conservação da biodiversidade. Com isso em mente, o presente estudo teve como objetivo compreender como os aspectos espaciais e ontogenéticos (usando o Comprimento padrão como proxy) definem a composição da dieta, posição trófica e amplitude de nicho trófico para um pequeno caracídeo (Bryconamericus exodon) em riachos localizados em dois rios do Pantanal brasileiro. Também avaliamos se as diferenças espaciais influenciam na estruturação das redes tróficas. Métodos Os peixes foram amostrados mensalmente na estação chuvosa (Outubro/2017 a Março/2018) em quatro tributários dos rios Negro e Apa, utilizando diferentes métodos de amostragem. Em laboratório, os peixes foram medidos e pesados, seguido de excisão do estômago para posterior análise. Resultados Foram analisados 211 indivíduos, sendo 126 do Apa (Comprimento padrãomin= 11,28mm; Comprimento padrãomax= 43,53mm) e 85 do Negro (Comprimento padrãomin= 13,26mm; Comprimento padrãomax= 40,05mm), que consumiram principalmente insetos aquáticos (Índice alimentarTotal= 87,97%), seguidos de insetos terrestres (Índice alimentarTotal=9,02%). A composição da dieta foi influenciada principalmente pela variação espacial (Pseudo-F1,194=12,21; p<0,001), seguida da variação ontogenética (Pseudo-F1,190=7,23; p<0,001), no entanto, para amplitude de nicho trófico, detectamos uma maior importância da variação espacial (t=4,71; p<0,001) e ausência de variação ontogenética (t=1,24; p=0,213). Não foi detectada variação espacial para especialização complementar (p=0,998); apenas a conectância obteve uma variação significativa (p=0,047), com valores médios maiores no rio Negro (C= 0,27 ± 0,016) quando comparados aos das populações do rio Apa (C=0,22 ± 0,019). Além disso, a posição trófica não foi influenciada por variações espaciais (t=-1,77; p=0,077) ou ontogenéticas (t=0,69; p=0,494). Conclusões B. exodon é considerada uma espécie insetívora, cuja composição da dieta pode ser explicada mais pela variação espacial do que pela variação ontogenética.

Understanding ecological niches is essential to comprehend the processes that allow similar species to occur sympatrically. Niche overlap can result in some degree of competition when resources are limited, and therefore, sympatric species must differ to some extent at some niche level in order to co-exist. The two trawling bats that co-occur along the Mediterranean region share their foraging strategy and feeding grounds, potentially consuming similar prey species. However, no research has been conducted to elucidate their dietary niche similarities or differences to test whether these may shape their sympatric foraging occurrence and distribution. We used DNA metabarcoding to study the dietary composition and niche overlap of Myotis capaccinii (an exceptionally endangered species) and M. daubentonii (a relatively common species) during the breeding season in northeastern Iberia. Unlike previous studies, Trichoptera was the most frequently consumed prey order for both bat species, followed by Diptera (mainly Chironomidae). We also report, for the second time, fish consumption by M. capaccinii in the Iberian Peninsula, and provide the fourth report of piscivory for European bats. Although minor differences in diet composition between both trawling bats were found, they presented highly overlapping dietary niches and similar dietary niche breadths, suggesting that they exploit similar trophic resources. Overall, the current results suggest that both species may have found a balance to co-occur in the same foraging niche without interspecific competition being a limiting factor.

There is great concern about the future of sharks in Ecuador because of the lack of biological knowledge of most species that inhabit the region. This paper analyzes the feeding behavior of the pelagic thresher shark ( Alopias pelagicus ), the blue shark ( Prionace glauca ) and the silky shark ( Carcharhinus falciformis ) through the use of stable isotopes of carbon and nitrogen ( δ 13 C and δ 15 N), with the aim of determining the degree of interaction between these species in the Galapagos Marine Reserve. No interspecific differences were found in use of oceanic vs. inshore feeding areas ( δ 13 C: Kruskal–Wallis test, p = 0.09). The position in the hierarchy of the food web where A. pelagicus feeds differed from that of the other species ( δ 15 N: Kruskal–Wallis test, p = 0.01). There were no significant differences in δ 13 C and δ 15 N values between males and females of the three species (Student’s t -test, p  > 0.05), which suggests that both sexes have a similar feeding behavior. A specialist strategy was observed in P. glauca (trophic niche breadth TNB = 0.69), while the other species were found to be generalist ( A. pelagicus TNB = 1.50 and C. falciformis TNB = 1.09). The estimated trophic level (TL) varied between the three species. C. falciformis occupied the highest trophic level (TL = 4.4), making it a quaternary predator in the region. The results of this study coincide with the identified behavior in these predators in other areas of the tropical Pacific (Colombia and Mexico), and suggest a pelagic foraging strategy with differential consumption of prey between the three species. These ecological aspects can provide timely information when implementing in conservation measures for these shark species in the Tropical Pacific and Galapagos Marine Reserve.

The bleak Alburnus alburnus is native to most of Europe. This cyprinid fish is a successful invader in the Iberian Peninsula. No studies exist on its foraging strategies on a large scale for this ecoregion. The aim of the present study was to compare dietary traits of invasive bleak among the main Iberian rivers and a ‘reference’ native bleak population from France. Bleak were sampled during May–June 2019 from the Iberian Rivers Ebro, Tagus, Guadiana, Segura and Guadalquivir and the River Saône (France). Diptera larvae and zooplankton were common food categories in the River Saône. Insect nymphs were more important in the River Ebro. The intake of plant material was higher in the River Tagus. Flying insects were more consumed in the River Guadiana. Nektonic insects were important in the River Guadalquivir. Detritus was a frequent food category for all populations, in terms of occurrence and mass. Dietary parameters followed a unimodal response in relation to the latitudinal gradient, with the maximum values for the Tagus and Guadiana populations. Overall, results suggest that this wide interpopulation variability will contribute to the species’ successful establishment throughout Mediterranean Europe, which poses a serious risk to its highly valuable native fish fauna.

We investigated the larval feeding ecology of sprat Sprattus sprattus L., an important commercial fish species in the Central Baltic Sea. We collected seasonally resolved larval abundance and gut content as well as zooplankton data, with the goal of identifying mechanisms leading to variability in larval survival. Our results show sprat larvae feed progressively on larger food items as they grow during the season depending on their size and the composition of the available prey. We found first- feeding larvae early in the spawning season to prey exclusively upon microplankton. Small larvae fed mainly upon nauplii of the copepods Acartia spp., Temora longicornis and Centropages hamatus (ca. 65%), whereas larger larvae consumed up to 80% Acartia spp. copepodites and adults, as well as cladocerans. Trends in sprat larval diets were to a large degree explainable by selective feeding. Feeding success and gut fullness increased linearly with larval size. Trophic niche breadth increased linearly until larvae reached a predator size of 16 mm, after which it decreased. We explain the latter decline by a restricted size spectrum of prey available to larger sprat larvae, which points towards the importance of considering the structure of the zooplankton community when evaluating the predator size to niche breadth relationship. Our results suggest first- feeding Baltic sprat larvae to be always food-limited, while larger larvae are not. We hypothesize medium-sized sprat larvae to be the life stage that has the potential to cause most of the interannual variability in sprat larval survival, which is dependent on a match between larval production and the state of the plankton cycle.

The diet of adult burbot (Lota lota) collected from two locations in the Mackenzie Delta during the winter was characterized using stomach content and stable isotopes analysis (δ ¹³C and δ ¹⁵N). Burbot consumed mainly ninespine stickleback, juvenile northern pike, and conspecifics, with high δ ¹⁵N confirming long-term piscivory. Of the 66 adult burbot sampled, 530 juvenile burbot were enumerated from their stomachs, and from these, 50 juvenile burbot were counted. Many of these juveniles were undigested and were examined for diet content and stable isotopes. Juveniles primarily consumed invertebrates, however, piscivory was detected in young-of-the-year, with stickleback and conspecifics becoming more important as size increased, possibly resulting in competition with adults for small-size fish. δ ¹⁵N indicated juvenile burbot occupied a lower tropic level while δ ¹³C suggested differences in habitat properties between sites. Cannibalism was important to adult diet where the highest frequency of occurrence was 96%, with conspecifics accounting for 82 and 93% of diet items by number and weight, respectively. Cannibalism in burbot increased its trophic breadth and juvenile growth rate, and combined with the amount of conspecifics consumed possibly promoted population stability and coexistence with intraguild predators.

Cephalopods are primary prey to a wide range of predators in global marine ecosystems. Despite their apparent ecological importance, little information exists on size-based predation respective to this taxon. Using long-term food habits and data from population surveys and commercial landings, we quantified size-based patterns of predation respective to 11 species of finfish, elasmobranchs, and marine mammals over ontogenetic scales. General trends of size-selective and seasonal foraging behavior are also presented for 25 species of predators from the northwest Atlantic Ocean. The functional role of squid was evaluated by contrasting patterns in size-based predation between squid and fish prey types. Measurements of predator gape morphology and prey body depths ascertained if predators were physically limited when feeding on squid. Additionally, the amount of overlap between natural predators and the commercial fishing industry for squid size resources was estimated. Predation by finfish and elasmobranchs was generally focused on juvenile and sub-adult squid, while marine mammals primarily targeted adults. Consequently, marine mammals had the highest overlap with the commercial fishing industry for squid size resources. All predators exhibited size-selective feeding behavior, and trends persisted over seasonal time periods. Predators fed on a wider range of fish prey sizes than squid and did not appear to be gape limited when feeding on squid; however, large squid were not common in predator diets. Results suggest squid behavior and availability in the environment are paramount in shaping size-based patterns of predation.

Species response to habitat loss, fragmentation, or alteration ranges from intolerance and extinction to tolerance and population growth. An ability to increase trophic niche breadth is likely to play a key role in promoting tolerance to habitat change in many species. Howlers (Alouatta spp.) are good examples of these tolerant species. Researchers have related their capacity to thrive well in disturbed habitats to their ability to exploit an eclectic vegetarian diet. Despite >50,000 h of observation of habituated free-ranging groups throughout the distribution of Alouatta, no case of intentional ingestion of animal matter has ever been observed. Here, we report an unexpected trophic niche broadening for free-ranging groups of black-and-gold howlers (Alouatta caraya) living in small (<=2 ha) impoverished habitat islands in the State of Rio Grande do Sul, Brazil. We studied 3 isolated social groups (15-17, 12-14, and 5 individuals) and observed 1 of them preying on birds' nests. We recorded 19 events of egg-eating during 2274 h of observation in 1 group and 2 suspected cases in another. Our findings highlight the dietary flexibility that characterize howlers and contrast with the widely held view that they observe a strictly vegetarian diet.