印度高止山脉西部山拉曼蛙的繁殖行为和炫耀鸣唱

无尾两栖类炫耀鸣声的作用在于吸引雌性与占领领域。在印度高止山脉西部的森林中,作者在三个连续的繁殖季节(2003年5月-2005年10月)研究了在树洞中进行隐秘繁殖的山拉曼蛙(Ramanella montana)的繁殖行为和炫耀鸣唱。山拉曼蛙连续几年使用同样的树洞进行繁殖。在繁殖季节,雄蛙首先到达繁殖地点并进行炫耀鸣唱,其典型的鸣唱持续时间比较短,平均优势频率接近2160Hz。     

Home-ranges and patterns of spatial use in territorial Bonelli's Eagles Aquila fasciata

Bonelli's Eagle Aquila fasciata is one of the rarest birds of prey in Europe, where it has suffered a significant decline in recent decades. We present information on the home-ranges and spatial parameters of 18 Bonelli's Eagles radiotracked in 2002–2006 in Catalonia (northeast Spain) and describe the home-range probability kernel, distances moved, breeding area eccentricity, territorial overlap, nearest neighbour distance and breeding site fidelity, and assess the influence of sex, breeding status, season and geographical area on these parameters. Median home-range according to the minimum convex polygon (MCP) and 95% kernel were 50.3 and 36.1 km², respectively. The median breeding area eccentricity was 1477 m. There was considerable overlap in the home-range of both sexes within pairs (MCP: 71.4% and 95% kernel: 98.5%), indicating close pair bonding and similar foraging patterns. Overlap in home-ranges of up to 15% between neighbouring individuals also occurred and was positively related to breeding pair density. There was no difference in spatial parameters between sexes or with breeding status, but during the non-breeding season Eagles had larger home-ranges and stayed further from nests. The high consistency across birds suggests a pattern of spatial use that is characteristic of this species. The high level of use of breeding areas and their surroundings (50% kernel) throughout the year makes it important that these areas be protected from human disturbance. Additionally, it is necessary that heavily used areas away from nesting sites, which are used for foraging and roosting, are identified, protected and managed in a sustainable fashion.     

Disentangling the Effects of Root Foraging and Inherent Growth Rate on Plant Biomass Accumulation in Heterogeneous Environments: A Modelling Study

Empirical evidence indicates that fast-growing species generallydisplay a higher degree of selective root placement in heterogeneousenvironments than slow-growing species. Such root foraging isaccomplished by root morphological responses, but since somemorphological responses are simply the result of enhanced growthof the roots in the enriched patch it is difficult to separatethe effects of root foraging and growth rate on the biomassaccumulation of species in heterogeneous environments. Herea simple model is presented to disentangle these effects. Rootforaging is incorporated as the selective allocation of rootbiomass per unit time to the nitrogen-rich patch. Growth ratedifferences among the model plants result from differences innitrogen utilization efficiency. In the model, the degree ofselective root placement can be varied independently of growthrate. The model shows that when plants are compared at a commonpoint in time, selective root placement and growth rate interactpositively with respect to the enhancement of plant biomassaccumulation in heterogeneous compared to homogeneous environments.However, by evaluating the model at a common plant biomass,the main and interactive effects of growth rate are eliminated.These results suggest that growth rate by itself does not conferan advantage in terms of resource acquisition and biomass accumulationin heterogeneous environments. Only the selective placementof resource acquiring structures (such as roots) leads to suchbenefits. The essential differences between foraging and growth,as well as the consequences of differences in foraging abilityand growth rate between species on competition for a limitedresource, are discussed. Copyright 1999 Annals of Botany Company Environmental heterogeneity, foraging, growth rate, model, nitrogen uptake, nitrogen utilization, patchiness, plant growth, plasticity, root placement.     

Pollination ecology of the pre-Pyrenean endemic Petrocoptis montsicciana (Caryophyllaceae): effects of population size

Petrocoptis montsicciana (Caryophyllaceae) is a threatened pre‐Pyrenean endemic that grows exclusively on caves and walls of limestone. We studied its pollination ecology by monitoring phenology and by evaluating pollen and nectar production, pollinator activity (frequency and behaviour of visitors), quantity and quality of pollination services, pollen/ovule ratio, and seed set in response to insect exclusion and self‐compatibility tests. We also analysed the effect of population size on reproductive mechanisms by comparing a large and a small population. Flowers of P. montsicciana produced nectar and were visited by Hymenoptera (79.7%), Diptera (11.5%), and Lepidoptera (8.8%). The most frequent pollinators (60.6% of total visits) were long‐tongued bees of the genus Anthophora. Both populations had a similar range of pollinators. We found a correlation between the number of visited flowers and the number of open flowers per census; 88.7% of pollen grains deposited on the stigmas were conspecific and the main competitor was another chasmophyte plant, Antirrhinum molle. Bagged flowers set seeds but significantly less so than hand‐self‐pollinated and control flowers. Thus, although self‐compatible and self‐pollinated, entomophilous pollination of P. montsicciana is required in order to explain c. 10–40% of total seed set, in accordance with P/O ratio estimations. Bagged flowers from the small population set significantly more seeds than the large one. Visitation rates were lower in the small population, but, unexpectedly, showed higher stigmatic pollen loads and similar or higher seed set. These results suggest an increase of spontaneous selfing rates in the small population, probably favoured by a smaller flower size, which can not only assure reproductive success when pollinators are scarce, but also provide additional potential to adapt to climatic changes. © 2002 The Linnean Society of London, Biological Journal of the Linnean Society, 2002, 76 , 79–90.     

Climate increases regional tree-growth variability in Iberian pine forests

Tree populations located at the geographical distribution limit of the species may provide valuable information about tree‐growth response to changes on climatic conditions. We established nine Pinus nigra, 12 P. sylvestris and 17 P. uncinata tree‐ring width chronologies along the eastern and northern Iberian Peninsula, where these species are found at the edge of their natural range. Tree‐growth variability was analyzed using principal component analysis (PCA) for the period 1885–1992. Despite the diversity of species, habitats and climatic regimes, a common macroclimatic signal expressed by the first principal component (PC1) was found. Moreover, considering the PC1 scores as a regional chronology, significant relations were established with Spanish meteorological data. The shared variance held by the tree chronologies, the frequency of narrow rings and the interannual growth variability (sensitivity) increased markedly during the studied period. This shows an enhancement of growth synchrony among forests indicating that climate might have become more limiting to growth. Noticeably, an upward abrupt shift in common variability at the end of the first half of the 20th century was detected. On the other hand, moving‐interval response functions showed a change in the growth–climate relationships during the same period. The relationship between growth and late summer/autumn temperatures of the year before growth (August–September, negative correlation, and November, positive correlation) became stronger. Hence, water stress increase during late summer previous to tree growth could be linked to the larger growth synchrony among sites, suggesting that climate was driving the growth pattern changes. This agrees with the upward trend in temperature observed in these months. Moreover, the higher occurrence of extreme years and the sensitivity increase in the second half of the 20th century were in agreement with an increment in precipitation variability during the growing period. Precipitation variability was positively related to tree‐growth variability, but negatively to radial growth. In conclusion, a change in tree‐growth pattern and in the climatic response of the studied forests was detected since the mid‐20th century and linked to an increase in water stress. These temporal trends were in agreement with the observed increase in warmer conditions and in precipitation variability.