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排序方式: 共有187条查询结果,搜索用时 15 毫秒
181.
182.
Aitor Arrizabalaga‐Escudero Elizabeth L. Clare Egoitz Salsamendi Antton Alberdi Inazio Garin Joxerra Aihartza Urtzi Goiti 《Molecular ecology》2018,27(5):1273-1283
Niche partitioning through foraging is a mechanism likely involved in facilitating the coexistence of ecologically similar and co‐occurring animal species by separating their use of resources. Yet, this mechanism is not well understood in flying insectivorous animals. This is particularly true of bats, where many ecologically similar or cryptic species coexist. The detailed analysis of the foraging niche in sympatric, cryptic sibling species provides an excellent framework to disentangle the role of specific niche factors likely involved in facilitating coexistence. We used DNA metabarcoding to determine the prey species consumed by a population of sympatric sibling Rhinolophus euryale and Rhinolophus mehelyi whose use of habitat in both sympatric and allopatric ranges has been well established through radio tracking. Although some subtle dietary differences exist in prey species composition, the diet of both bats greatly overlapped (Ojk = 0.83) due to the consumption of the same common and widespread moths. Those dietary differences we did detect might be related to divergences in prey availabilities among foraging habitats, which prior radio tracking on the same population showed are differentially used and selected when both species co‐occur. This minor dietary segregation in sympatry may be the result of foraging on the same prey‐types and could contribute to reduce potential competitive interactions (e.g., for prey, acoustic space). Our results highlight the need to evaluate the spatial niche dimension in mediating the co‐occurrence of similar insectivorous bat species, a niche factor likely involved in processes of bat species coexistence. 相似文献
183.
Aitor Albaina Mikel Aguirre David Abad María Santos Andone Estonba 《Ecology and evolution》2016,6(6):1809-1824
The potential of the 18S rRNA V9 metabarcoding approach for diet assessment was explored using MiSeq paired‐end (PE; 2 × 150 bp) technology. To critically evaluate the method′s performance with degraded/digested DNA, the diets of two zooplanktivorous fish species from the Bay of Biscay, European sardine (Sardina pilchardus) and European sprat (Sprattus sprattus), were analysed. The taxonomic resolution and quantitative potential of the 18S V9 metabarcoding was first assessed both in silico and with mock and field plankton samples. Our method was capable of discriminating species within the reference database in a reliable way providing there was at least one variable position in the 18S V9 region. Furthermore, it successfully discriminated diet between both fish species, including habitat and diel differences among sardines, overcoming some of the limitations of traditional visual‐based diet analysis methods. The high sensitivity and semi‐quantitative nature of the 18S V9 metabarcoding approach was supported by both visual microscopy and qPCR‐based results. This molecular approach provides an alternative cost and time effective tool for food‐web analysis. 相似文献
184.
Aingeru Martínez Aitor Larrañaga Andrea Miguélez Gabriel Yvon‐Durocher Jesús Pozo 《Freshwater Biology》2016,61(1):69-79
- In low‐order forested streams, catchment‐scale land‐use modifications to vegetation can affect energy inputs into streams and trophic interactions within these donor‐controlled food webs.
- We examined the effects of Pinus radiata plantations on the intercept and slope of the size spectrum (the relationship between log‐mass and log‐density) of macroinvertebrate communities in low‐order forested streams. We compared three streams draining pine plantations with three draining native deciduous forests, all without significant differences in water physicochemical characteristics.
- While size spectrum intercept was similar between the two stream types, the slope of the size spectrum was shallower in pine than in deciduous streams based on a decline in the density of the smaller individuals.
- The shredder feeding guild showed the largest changes, with a significant reduction in their total density and, specifically, in the density of the smaller individuals from the deciduous to the pine streams. This alteration is explained by the change in very specialist shredders, such as plecopterans and trichopterans, but not in those with highly mobile crustaceans or more generalist dipterans.
- The effect detected for shredders might have scaled up to higher trophic levels as the density of invertebrate predators (small and big) was lower in streams under pine, suggesting a response to prey limitation.
- These results indicate that the change of in‐stream resource quality arising from the replacement of deciduous vegetation by pine plantations can trigger size‐specific responses of macroinvertebrates and target specialised feeding guilds such as shedders, and can elicit a bottom‐up reaction in the organisation of food webs.
185.
186.
Sebastian Sauppe Kamal K. Choudhary Nathalie Giroud Damin E. Blasi Elisabeth Norcliffe Shikha Bhattamishra Mahima Gulati Aitor Egurtzegi Ina Bornkessel-Schlesewsky Martin Meyer Balthasar Bickel 《PLoS biology》2021,19(1)
Planning to speak is a challenge for the brain, and the challenge varies between and within languages. Yet, little is known about how neural processes react to these variable challenges beyond the planning of individual words. Here, we examine how fundamental differences in syntax shape the time course of sentence planning. Most languages treat alike (i.e., align with each other) the 2 uses of a word like “gardener” in “the gardener crouched” and in “the gardener planted trees.” A minority keeps these formally distinct by adding special marking in 1 case, and some languages display both aligned and nonaligned expressions. Exploiting such a contrast in Hindi, we used electroencephalography (EEG) and eye tracking to suggest that this difference is associated with distinct patterns of neural processing and gaze behavior during early planning stages, preceding phonological word form preparation. Planning sentences with aligned expressions induces larger synchronization in the theta frequency band, suggesting higher working memory engagement, and more visual attention to agents than planning nonaligned sentences, suggesting delayed commitment to the relational details of the event. Furthermore, plain, unmarked expressions are associated with larger desynchronization in the alpha band than expressions with special markers, suggesting more engagement in information processing to keep overlapping structures distinct during planning. Our findings contrast with the observation that the form of aligned expressions is simpler, and they suggest that the global preference for alignment is driven not by its neurophysiological effect on sentence planning but by other sources, possibly by aspects of production flexibility and fluency or by sentence comprehension. This challenges current theories on how production and comprehension may affect the evolution and distribution of syntactic variants in the world’s languages.Little is known about the neural processes involved in planning to speak. This study uses eye-tracking and EEG to show that speakers prepare sentence structures in different ways and rely on alpha and theta oscillations differently when planning sentences with and without agent case marking, challenging theories on how production and comprehension affect language evolution. 相似文献
187.
Marcos Sterkel Lee R. Haines Aitor Casas-Snchez Vincent Owino Adung&#x;a Raquel J. Vionette-Amaral Shannon Quek Clair Rose Mariana Silva dos Santos Natalia García Escude Hanafy M. Ismail Mark I. Paine Seth M. Barribeau Simon Wagstaff James I. MacRae Daniel Masiga Laith Yakob Pedro L. Oliveira
lvaro Acosta-Serrano 《PLoS biology》2021,19(1)
Tsetse transmit African trypanosomiasis, which is a disease fatal to both humans and animals. A vaccine to protect against this disease does not exist so transmission control relies on eliminating tsetse populations. Although neurotoxic insecticides are the gold standard for insect control, they negatively impact the environment and reduce populations of insect pollinator species. Here we present a promising, environment-friendly alternative to current insecticides that targets the insect tyrosine metabolism pathway. A bloodmeal contains high levels of tyrosine, which is toxic to haematophagous insects if it is not degraded and eliminated. RNA interference (RNAi) of either the first two enzymes in the tyrosine degradation pathway (tyrosine aminotransferase (TAT) and 4-hydroxyphenylpyruvate dioxygenase (HPPD)) was lethal to tsetse. Furthermore, nitisinone (NTBC), an FDA-approved tyrosine catabolism inhibitor, killed tsetse regardless if the drug was orally or topically applied. However, oral administration of NTBC to bumblebees did not affect their survival. Using a novel mathematical model, we show that NTBC could reduce the transmission of African trypanosomiasis in sub-Saharan Africa, thus accelerating current disease elimination programmes.This study shows that tsetse flies, vectors of African trypanosomiasis, are highly susceptible to killing by nitisinone, a tyrosine catabolism inhibitor currently used to treat human metabolic diseases; this environment-friendly drug could facilitate elimination of African trypanosomiasis and other diseases transmitted by blood feeding insects. 相似文献