Urbanization decreases species diversity, but it increases the abundance of certain species with high tolerance to human activities.
The safe-habitat hypothesis explains this pattern through a decrease in the abundance of native predators, which reduces predation
risk in urban habitats. However, this hypothesis does not consider the potential negative effects of human-associated disturbance
(e.g., pedestrians, dogs, cats). Our goal was to assess the degree of perceived predation risk in house finches (Carpodacus mexicanus) through field studies and semi-natural experiments in areas with different levels of urbanization using multiple indicators
of risk (flock size, flight initiation distance, vigilance, and foraging behavior). Field studies showed that house finches
in more urbanized habitats had a greater tendency to flock with an increase in population density and flushed at larger distances
than in less urbanized habitats. In the semi-natural experiment, we found that individuals spent a greater proportion of time
in the refuge patch and increased the instantaneous pecking rate in the more urbanized habitat with pedestrians probably to
compensate for the lower amount of foraging time. Vigilance parameters were influenced in different ways depending on habitat
type and distance to flock mates. Our results suggest that house finches may perceive highly urbanized habitats as more dangerous,
despite the lower number of native predators. This could be due to the presence of human activities, which could increase
risk or modify the ability to detect predators. House finches seem to adapt to the urban environment through different behavioral
strategies that minimize risk. 相似文献
Chamber method is commonly used to measure the CO2 exchange from plant communities. Due to low time resolution, actual measurements reflect only momentary CO2 exchange rates. Therefore, a common way to derive seasonal or annual estimates is to establish models describing the response of CO2 exchange to environmental variables, and then to reconstruct the CO2 exchange over the desired time period. There are several alternative ways to obtain the CO2 balance for the entire mire: models can be parameterized by individual sample plots, plant communities or the entire site. Similarly, the CO2 balance can be reconstructed by plots, plant communities or the entire site. We tested how the choice of the modelling and reconstruction approach influences the CO2 exchange estimates for the entire mire and for individual sample plots and plant communities. We measured the CO2 exchange in a spatially heterogeneous sedge-dominated northern aapa mire for two growing seasons. We observed high spatial variation in CO2 balance between the plant communities. We noticed that when the CO2 balances of individual sample plots or plant communities are of interest, using a model appropriate for the entire site may result in biased estimates. In worst case the different modelling approaches may turn the CO2 balance of an individual sample plot from positive to negative. Further, while using the whole ecosystem approach in modelling, the superior ability of chamber method in acknowledging spatial variation is lost. While the modelled growing season CO2 balance of the mire ranged from 232 to 625 g CO2 m−2 depending on the chosen modelling and reconstruction approach, the average estimates still remained within the uncertainty range of one another. Acknowledgement of the spatial variation in plant community level makes the areal estimate more robust to varying weather conditions. Further, the reliability of estimates is improved by explicit formulation of the choices behind the modelling and reconstruction units reflecting the study objectives. 相似文献
Two-year old Ulmus laevis Pall (U. laevis) seedlings were cultivated in a three-month hydroponic experiment with inorganic (aresenite – As(III) and arsenate – As(V)) and organic (dimethylarsenic acid – DMA(V)) arsenic forms, at 0.06 and/or 0.6?mM concentrations. Further, the profile and content of total low molecular weight organic acids (LMWOAs) were investigated in the rhizosphere, roots and leaves of U. laevis. Obtained results showed that the addition of As(III) or As(V) individually or in a mixture led to increased LMWOAs concentration in the rhizosphere, especially of oxalic and malonic acids, in comparison to the control, while in roots the overall content of the profiled LMWOAs decreased. In both rhizosphere and roots, addition of the DMA(V) form resulted in the inhibition of LMWOAs exudation into the rhizosphere and their creation in plant roots. Leaves were characterised by a higher content of LMWOAs than in the rhizosphere and roots for all experimental systems, where the profile and content of LMWOAs was strictly correlated with the analysed As forms. Our study indicated that creation of LMWOAs in U. laevis organs and their exudation to the rhizosphere could be responsible for the As toxicity tolerance of the plants. 相似文献
This article discusses inter and post-war works of fiction written by Polish and German-speaking authors with biographical connections to Oder River regions. The literary texts provide insights into the vulnerability to and resilience constructions of floods, which are related to such cultural factors as migrant histories and traditions, regional beliefs and religion, and the political background of changing frontiers in 1919 and 1945 that affected residents of this cross-border area.
The capacity to cope with the flooding Oder, especially after the major flood in 1997, intertwines with the problematic Polish-German relationship, including Silesia. For Polish communities, whose environmental cultures have been distorted by wars, resettlement and communism, vulnerability and resilience perceptions lack representations of the tangible river. It is culturally bounded in the stigmatising image of the Oder as the border of division, revived after 1945 and exposed by the Polish communist party in the so-called ‘Polonisation’ of the ‘Recovered Territories’. Fiction detects the problem of overworking the difficult past in response to the Oder’s hazardous nature. Writers representing an emotional attachment to the river and an aquacritical approach express the need to learn about the river’s lively nature, both in cooperating and sharing space, which is called the environmental adaptation. 相似文献
We studied a guild of desert winter annual plants that differ in long-term variation in per capita reproductive success (lb, the product of per capita survival from germination to reproduction, l, times per capita reproduction of survivors, b) to relate individual function to population and community dynamics. We hypothesized that variation in lb should be related to species' positions along a trade-off between relative growth rate (RGR) and photosynthetic water-use efficiency (WUE) because lb is a species-specific function of growing-season precipitation. We found that demographically variable species have greater RGR and greater leaf carbon isotope discrimination (Delta, a proxy inversely related to WUE). We examined leaf nitrogen and photosynthetic characteristics and found that, in this system, variation in Delta is a function of photosynthetic demand rather than stomatal regulation of water loss. The physiological characteristics that result in low Delta in some species may confer greater photosynthetic performance during the reliably moist but low temperature periods that immediately follow winter rainfall in the Sonoran Desert or alternatively during cool periods of the day or early growing season. Conversely, while species with high Delta and high RGR exhibit low leaf N, they have high biomass allocation to canopy leaf area display. Such trait associations may allow for greater performance during the infrequent conditions where high soil moisture persists into warmer conditions, resulting in high demographic variance. Alternatively, high variance could arise from specialization to warm periods of the day or season. Population dynamic buffering via stress tolerance (low RGR and Delta) correlates negatively with buffering via seed banks, as predicted by bet-hedging theory. By merging analyses of population dynamics with functional trait relationships, we develop a deeper understanding of the physiological, ecological, and evolutionary mechanisms involved in population and community dynamics. 相似文献
The gastropods Lepetodrilus fucensis and Depressigyra globulus are abundant faunal components of animal communities at deep-sea hydrothermal vents along the Juan de Fuca Ridge in the NE
Pacific. The population structure and recruitment pattern of both species were studied using modal decomposition of length–frequency
distributions. Gastropod populations were collected from Axial Volcano and Endeavour Segment in 2002 and 2003. Polymodal size–frequency
distributions, particularly at Axial Volcano vent sites, suggest a discontinuous recruitment pattern for D. globulus. In contrast, there were no distinct peaks visible in the distributions of L. fucensis, suggesting a continuous recruitment pattern for this species. For both species, distributions were positively skewed towards
the smaller length–classes, implying post-settlement mortality is high. However, variations in growth, due to short- and long-term
variability in environmental conditions in the hydrothermal vent habitat, as well as biological interactions, may also be
influencing the distribution and abundance of subsequent life-history stages. Using maximum shell lengths from populations
of known ages, the growth rate of L. fucensis was estimated as 9.6 μm day−1, indicating adulthood would be reached in ∼1 year. Our results suggest that, despite occupying the same habitat, abundance
and population structure are regulated by different biotic and abiotic processes in L. fucensis and D. globulus. 相似文献
There is a paucity of theory pertaining to social surveys of annoyance and community noise. A new psychophysical model addresses data concerning resident annoyance in sites exposed to various maximum noise levels and different numbers of noise events. The best fits of this model point to the relevance of response variance for understanding the results obtained with category response scales. The argument identifies a number of psychological and physical variables that may influence annoyance reactions to community noise. Most importantly, the model suggests that the truncation inherent in category scales biases the responses, and that response variability may be critical in determining the detailed shape of the dose–response function. Regulatory decisions concerning annoyance and community noise should be more valid when based on a deeper understanding of the theoretical basis of the empirical data. 相似文献