Describing postures has always been a central concern when studying behaviour. However, attempts to compare postures objectively
at phylogenetical, populational, inter- or intra-individual levels generally either rely upon a few key elements or remain
highly subjective. Here, we propose a novel approach, based on well-established geometric morphometrics, to describe and to
analyse postures globally (i.e. considering the animal’s body posture in its entirety rather than focusing only on a few salient
elements, such as head or tail position). Geometric morphometrics is concerned with describing and comparing variation and
changes in the form (size and shape) of organisms using the coordinates of a series of homologous landmarks (i.e. positioned
in relation to skeletal or muscular cues that are the same for different species for every variety of form and function and
that have derived from a common ancestor, i.e. they have a common evolutionary ancestry, e.g. neck, wings, flipper/hand).
We applied this approach to horses, using global postures (1) to characterise behaviours that correspond to different arousal
levels, (2) to test potential impact of environmental changes on postures. Our application of geometric morphometrics to horse
postures showed that this method can be used to characterise behavioural categories, to evaluate the impact of environmental
factors (here human actions) and to compare individuals and groups. Beyond its application to horses, this promising approach
could be applied to all questions involving the analysis of postures (evolution of displays, expression of emotions, stress
and welfare, behavioural repertoires…) and could lead to a whole new line of research. 相似文献
In Mediterranean habitats, temperature affects both ant foraging behaviour and community structure. Many studies have shown
that dominant species often forage at lower temperature than subordinates. Yet, the factors that constrain dominant species
foraging activity in hot environments are still elusive. We used the dominant ant Tapinoma nigerrimum as a model species to test the hypothesis that high temperatures hinder trail following behaviour by accelerating pheromone
degradation. First, field observations showed that high temperatures (> 30°C) reduce the foraging activity of T. nigerrimum independently of the daily and seasonal rhythms of this species. Second, we isolated the effect of high temperatures on pheromone
trail efficacy from its effect on worker physiology. A marked substrate was heated during 10 min (five temperature treatments
from 25°C to 60°C), cooled down to 25°C, and offered in a test choice to workers. At hot temperature treatments (>40°C), workers
did not discriminate the previously marked substrate. High temperatures appeared therefore to accelerate pheromone degradation.
Third, we assessed the pheromone decay dynamics by a mechanistic model fitted with Bayesian inference. The model predicted
ant choice through the evolution of pheromone concentration on trails as a function of both temperature and time since pheromone
deposition. Overall, our results highlighted that the effect of high temperatures on recruitment intensity was partly due
to pheromone evaporation. In the Mediterranean ant communities, this might affect dominant species relying on chemical recruitment,
more than subordinate ant species, less dependent on chemical communication and less sensitive to high temperatures. 相似文献
INTRODUCTION: Companies that use forklifts to load and unload trucks at loading docks are well aware of the main danger associated with this type of activity (i.e., the possibility of the forklift falling or tipping over when the truck suddenly moves away from the dock). Even if various truck restraint measures can be implemented to reduce the possibility of this type of accident, a number of hazardous incidents that result in a forklift tipping over from a loading dock still do occur regularly in day-to-day activities. This situation has brought experts to examine and evaluate the effectiveness of different measures and systems depending on the context in which they are used. METHODS: The present study touched upon both the technical and the organizational aspects of the restraint measures that could have an impact on safety. Certain elements were examined very closely, especially the failure of mechanical devices and their relation to the environment in which they are used, as well as the systemic interaction between people and the various restraint measures in use in a given context. CONCLUSION: This article presents a safety evaluation tool regarding restraint measures or systems for trucks docked at loading platforms - a tool that, of course, would take into consideration both the specific contextual aspects related to the docking bay itself, and to the plant. IMPACT ON INDUSTRY: This tool is designed to help companies choose the optimal safety measures to implement, while remaining realistic in terms of the technical and economic aspects of any given situation. 相似文献
Quantitative estimates of future climate change and its various impacts are often based on complex climate models which incorporate a number of physical processes. As these models continue to become more sophisticated, it is commonly assumed that the latest generation of climate models will provide us with better estimates of climate change. Here, we quantify the uncertainty in future climate change projections using two multi-model ensembles of climate model simulations and divide it into different components: internal, scenario and model. The contributions of these sources of uncertainty changes as a function of variable, temporal and spatial scale and especially lead time in the future. In the new models, uncertainty intervals for each of the components have increased. For temperature, importance of scenario uncertainty is the largest over low latitudes and increases nonlinearly after the mid-century. It has a small importance for precipitation simulations on all time scales, which hampers estimating the effect which any mitigation efforts might have. In line with current state-of-the-art adaptation approaches, we argue that despite these uncertainties climate models can provide useful information to support adaptation decision-making. Moreover, adaptation decisions should not be postponed in the hope that future improved scientific understanding will result in more accurate predictions of future climate change. Such simulations might not become available. On the contrary, while planning adaptation initiatives, a rational framework for decision-making under uncertainty should be employed. We suggest that there is an urgent need for continued development and use of improved risk analysis methods for climate change adaptation. 相似文献
A tunable diode laser absorption spectrometer (TDLAS) for formaldehyde atmospheric measurements has been set up and validated through comparison experiments with a Fourier transform infrared spectrometer (FT-IR) in a simulation chamber. Formaldehyde was generated in situ in the chamber from reaction of ethene with ozone. Three HCHO ro-vibrational line intensities (at 2909.71, 2912.09 and 2914.46 cm-1) possibly used by TDLAS were calibrated by FT-IR spectra simultaneously recorded in the 1600-3200 cm-1 domain during ethene ozonolysis, enabling the on-line deduction of the varying concentration for HCHO in formation. The experimental line intensities values inferred confirmed the calculated ones from the updated HITRAN database. In addition, the feasibility of stratospheric in situ HCHO measurements using the 2912.09 cm-1 line was demonstrated. The TDLAS performances were also assessed, leading to a 2σ detection limit of 88 ppt in volume mixing ratio with a response time of 60 sec at 30 Torr and 294 K for 112 m optical path. As part of this work, the room-temperature rate constant of this reaction and the HCHO formation yield were found to be in excellent agreement with the compiled literature data. 相似文献
The debate about the revision of the EU directive 91/414 has often been characterized by unobjective criticism of the existing regulations and of the authorities involved in the regulatory procedure. This made many consumers feel uncertain and left the public with the impression that the current regulatory system for plant protection products in Europe was not safe for consumers and the environment. However, a detailed evaluation of these statements has clearly demonstrated that the current regulatory procedure is safe and recent scientific knowledge is taken into account. The risk potential calculated for aquatic and terrestrial organisms in Germany has continuously decreased since 1987. The effects and the benefits of the new regulations, which have reached a level of complexity as never before, are discussed in this context. From an industry perspective, clear legal regulations and practical implementations are essential to guarantee the transparence of the regulatory process and predictability of the outcome. 相似文献
Environmental Economics and Policy Studies - This paper provides empirical evidence regarding the effect of energy based taxes on economic growth. The analysis is based on a panel dataset of 31... 相似文献
Around the Mediterranean basin, climate change is one of the major phenomena affecting agriculture. Therefore, the mode of production and crop management will have to change radically. Our objective in this article is to examine the long-run effects of climate change on date production in Tunisia using panel cointegration covering the period from 1980 to 2014 in 24 regions. The climate of Tunisia differs in our study because we find a Saharan climate in the south and a European climate in the north. The central regions are characterized by a Mediterranean climate. Our empirical results show that the effects of climate and weather variability on date production must be considered a serious threat in Tunisia. In addition, we estimate relatively negative and variable long-run effects of temperature increase and rainfall shortages across regions on date output over the last three decades. 相似文献
It has been suggested that traditional ecological knowledge (TEK) may play a key role in forest conservation. However, empirical studies assessing to what extent TEK is associated with forest conservation compared with other variables are rare. Furthermore, to our knowledge, the spatial overlap of TEK and forest conservation has not been evaluated at fine scales. In this paper, we address both issues through a case study with Tsimane’ Amerindians in the Bolivian Amazon. We sampled 624 households across 59 villages to estimate TEK and used remote sensing data to assess forest conservation. We ran statistical and spatial analyses to evaluate whether TEK was associated and spatially overlapped with forest conservation at the village level. We find that Tsimane’ TEK is significantly and positively associated with forest conservation although acculturation variables bear stronger and negative associations with forest conservation. We also find a very significant spatial overlap between levels of Tsimane’ TEK and forest conservation. We discuss the potential reasons underpinning our results, which provide insights that may be useful for informing policies in the realms of development, conservation, and climate. We posit that the protection of indigenous cultural systems is vital and urgent to create more effective policies in such realms. 相似文献
Health risks posed by ambient air pollutants to the urban Lebanese population have not been well characterized. The aim of this study is to assess cancer risk and mortality burden of non-methane hydrocarbons (NMHCs) and particulates (PM) based on two field-sampling campaigns conducted during summer and winter seasons in Beirut. Seventy NMHCs were analyzed by TD-GC-FID. PM2.5 elemental carbon (EC) components were examined using a Lab OC-EC aerosol Analyzer, and polycyclic aromatic hydrocarbons were analyzed by GC-MS. The US EPA fraction-based approach was used to assess non-cancer hazard and cancer risk for the hydrocarbon mixture, and the UK Committee on Medical Effects of Air Pollutants (COMEAP) guidelines were followed to determine the PM2.5 attributable mortality burden. The average cumulative cancer risk exceeded the US EPA acceptable level (10−6) by 40-fold in the summer and 30-fold in the winter. Benzene was found to be the highest contributor to cancer risk (39–43%), followed by 1,3-butadiene (25–29%), both originating from traffic gasoline evaporation and combustion. The EC attributable average mortality fraction was 7.8–10%, while the average attributable number of deaths (AD) and years of life lost (YLL) were found to be 257–327 and 3086–3923, respectively. Our findings provide a baseline for future air monitoring programs, and for interventions aiming at reducing cancer risk in this population.