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671.
Meike Linnenschmidt Laura N. Kloepper Magnus Wahlberg Paul E. Nachtigall 《Die Naturwissenschaften》2012,99(9):767-771
Some odontocetes and bats vary both click intensity and receiver sensitivity during echolocation, depending on target range. It is not known how this so-called automatic gain control is regulated by the animal. The source level of consecutive echolocation clicks from a harbour porpoise was measured with a hydrophone array while the animal detected an aluminium cylinder at 2, 4 or 8?m distance in a go/no-go paradigm. On-axis clicks had source levels of 145–174?dB re 1?μPa peak-to-peak. During target-present trials the click trains reached comparable source levels independent of the range to the target after three clicks. After an additional click, the source level was reduced for the 2 and 4?m trials until it equalled the one-way transmission loss. During target-absent trials, the source level remained high throughout the entire click train. Given typical values of harbour porpoise inter-click intervals, the source level reduction commenced within a few 100?ms from the first click in the click train. This may indicate a sub-cortically regulated source level regulation in the harbour porpoise. 相似文献
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675.
Andrew D. Irving David Balata Francesco Colosio Guillaume A. Ferrando Laura Airoldi 《Marine Biology》2009,156(6):1223-1231
Recruitment is essential for the maintenance of populations, but far more is typically known about the more easily-observed
adult stages than their smaller, often microscopic early life-history counterparts. This discrepancy can be particularly problematic
for populations of foundation species that create biogenic habitat for a multitude of other taxa, but are themselves prime
candidates for exploitation, fragmentation, and loss, and therefore become the focus of restoration efforts partly or fully
dependent on recruitment. The purpose of this study was to improve ecological understanding for early life-history stages
of the habitat-forming marine alga Cystoseira barbata (Stackhouse) C. Agardh (Fucales: Sargassaceae), member of a genus that has experienced considerable fragmentation and population
decline on European coasts. Using experimental manipulations of water temperature, light intensity, and sediment accumulation,
we observed that sediment virtually precluded recruitment of C. barbata, and greatly impacted the survival of recently settled germlings (up to ~83% mortality). Stronger intensities of light facilitated
the growth of germlings, including the capacity for ~50% of them to outgrow detrimental sediment and survive. Temperature
(10 vs. 16°C) had no effect on early recruitment, survival, or growth. This information helps to identify likely causes and
locations of recruitment failure, and by extension, the conditions needed (either naturally or through human intervention)
to facilitate recruitment and possible habitat restoration. Ultimately, this knowledge can increase our capacity to predict
population persistence and the likely success of restoration efforts. 相似文献
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677.
Using the functional response of a consumer to predict biotic resistance to invasive prey 总被引:1,自引:0,他引:1
Predators sometimes provide biotic resistance against invasions by nonnative prey. Understanding and predicting the strength of biotic resistance remains a key challenge in invasion biology. A predator's functional response to nonnative prey may predict whether a predator can provide biotic resistance against nonnative prey at different prey densities. Surprisingly, functional responses have not been used to make quantitative predictions about biotic resistance. We parameterized the functional response of signal crayfish (Pacifastacus leniusculus) to invasive New Zealand mud snails (Potamopyrgus antipodarum; NZMS) and used this functional response and a simple model of NZMS population growth to predict the probability of biotic resistance at different predator and prey densities. Signal crayfish were effective predators of NZMS, consuming more than 900 NZMS per predator in a 12-h period, and Bayesian model fitting indicated their consumption rate followed a type 3 functional response to NZMS density. Based on this functional response and associated parameter uncertainty, we predict that NZMS will be able to invade new systems at low crayfish densities (< 0.2 crayfish/m2) regardless of NZMS density. At intermediate to high crayfish densities (> 0.2 crayfish/m2), we predict that low densities of NZMS will be able to establish in new communities; however, once NZMS reach a threshold density of -2000 NZMS/m2, predation by crayfish will drive negative NZMS population growth. Further, at very high densities, NZMS overwhelm predation by crayfish and invade. Thus, interacting thresholds of propagule pressure and predator densities define the probability of biotic resistance. Quantifying the shape and uncertainty of predator functional responses to nonnative prey may help predict the outcomes of invasions. 相似文献
678.
Distinct mycorrhizal communities on new and established hosts in a transitional tropical plant community 总被引:3,自引:0,他引:3
Aldrich-Wolfe L 《Ecology》2007,88(3):559-566
The extent to which interspecific plants share mycorrhizal fungal communities depends on the specificity of the symbiosis. For tropical forest tree seedlings, colonization by mycorrhizal fungi associated with established vegetation could have important consequences for survival and growth. I used a novel molecular technique to assess the potential for sharing of mycorrhizas in forest and pasture in southern Costa Rica, by identifying arbuscular mycorrhizal (AM) fungi in roots of the forest canopy tree species Terminalia amazonia, pasture grasses Urochloa ruziziensis and U. decumbens, and seedlings of T. amazonia planted into experimental reforestation plots. I tested the hypotheses that experimental seedlings were colonized either by the AM fungal community of the forest T. amazonia (suggesting host specificity) or of Urochloa (suggesting absence of specificity/importance of local environment). After two years, pasture-grown T. amazonia seedlings were colonized by neither community, but rather by a species of Glomus that was rarely observed on the other plants. These results suggest that conspecific seedlings planted into existing vegetation generate a distinct mycorrhizal community that may influence competitive interactions and the relative costs and benefits of the AM fungal symbiosis at early stages in the life cycle of tropical trees. 相似文献
679.
John Lyons Stanley W. Thimble Laura K Paine 《Journal of the American Water Resources Association》2000,36(4):919-930
ABSTRACT: Forestation of riparian areas has long been promoted to restore stream ecosystems degraded by agriculture in central North America. Although trees and shrubs in the riparian zone can provide many benefits to streams, grassy or herbaceous riparian vegetation can also provide benefits and may be more appropriate in some situations. Here we review some of the positive and negative implications of grassy versus wooded riparian zones and discuss potential management outcomes. Compared to wooded areas, grassy riparian areas result in stream reaches with different patterns of bank stability, erosion, channel morphology, cover for fish, terrestrial runoff, hydrology, water temperature, organic matter inputs, primary production, aquatic macroinvertebrates, and fish. Of particular relevance in agricultural regions, grassy riparian areas may be more effective in reducing bank erosion and trapping suspended sediments than wooded areas. Maintenance of grassy riparian vegetation usually requires active management (e.g., mowing, burning, herbicide treatments, and grazing), as successional processes will tend ultimately to favor woody vegetation. Riparian agricultural practices that promote a dense, healthy, grassy turf, such as certain types of intensively managed livestock grazing, have potential to restore degraded stream ecosystems. 相似文献
680.
Cécile Fauvelot Francesca Bertozzi Federica Costantini Laura Airoldi Marco Abbiati 《Marine Biology》2009,156(11):2313-2323
Human-made structures are increasingly found in marine coastal habitats. The aim of the present study was to explore whether
urban coastal structures can affect the genetic variation of hard-bottom species. We conducted a population genetic analysis
on the limpet Patella caerulea sampled in both natural and artificial habitats along the Adriatic coast. Five microsatellite loci were used to test for
differences in genetic diversity and structure among samples. Three microsatellite loci showed strong Hardy–Weinberg disequilibrium
likely linked with the presence of null alleles. Genetic diversity was significantly higher in natural habitat than in artificial
habitat. A weak but significant differentiation over all limpet samples was observed, but not related to the type of habitat.
While the exact causes of the differences in genetic diversity deserve further investigation, these results clearly point
that the expansion of urban structures can lead to genetic diversity loss at regional scales. 相似文献