Hotspots in the grid: Avian sensitivity and vulnerability to collision risk from energy infrastructure interactions in Europe and North Africa

Wind turbines and power lines can cause bird mortality due to collision or electrocution. The biodiversity impacts of energy infrastructure (EI) can be minimised through effective landscape-scale planning and mitigation. The identification of high-vulnerability areas is urgently needed to assess potential cumulative impacts of EI while supporting the transition to zero carbon energy. We collected GPS location data from 1,454 birds from 27 species susceptible to collision within Europe and North Africa and identified areas where tracked birds are most at risk of colliding with existing EI. Sensitivity to EI development was estimated for wind turbines and power lines by calculating the proportion of GPS flight locations at heights where birds were at risk of collision and accounting for species' specific susceptibility to collision. We mapped the maximum collision sensitivity value obtained across all species, in each 5 × 5 km grid cell, across Europe and North Africa. Vulnerability to collision was obtained by overlaying the sensitivity surfaces with density of wind turbines and transmission power lines. Results: Exposure to risk varied across the 27 species, with some species flying consistently at heights where they risk collision. For areas with sufficient tracking data within Europe and North Africa, 13.6% of the area was classified as high sensitivity to wind turbines and 9.4% was classified as high sensitivity to transmission power lines. Sensitive areas were concentrated within important migratory corridors and along coastlines. Hotspots of vulnerability to collision with wind turbines and transmission power lines (2018 data) were scattered across the study region with highest concentrations occurring in central Europe, near the strait of Gibraltar and the Bosporus in Turkey. Synthesis and applications. We identify the areas of Europe and North Africa that are most sensitive for the specific populations of birds for which sufficient GPS tracking data at high spatial resolution were available. We also map vulnerability hotspots where mitigation at existing EI should be prioritised to reduce collision risks. As tracking data availability improves our method could be applied to more species and areas to help reduce bird-EI conflicts

Consequences of massive bird releases for hunting purposes, the Mallard Anas platyrhynchos

Le renforcement des populations naturelles exploitées par des individus captifs est rarement évalué, bien qu'il puisse induire des modifications notables sur la population naturelle à de nombreux niveaux : démographie, comportement, morphologie, génétique, pathogènes. Ce travail de thèse concerne les introductions de canards colverts Anas platyrhynchos réalisées à des fins cynégétiques. Cette pratique est très répandue en Europe, depuis plus de trente ans. Du fait de leur domestication en élevage, les canards lâchés subissent une mortalité naturelle très forte comparée aux oiseaux sauvages, à laquelle s'ajoute une plus grande vulnérabilité à la chasse. Une différenciation génétique marquée permet de discriminer les oiseaux lâchés de leurs congénères sauvages. Des croisements entre les deux groupes sont détectés, mais l'introgression reste limitée. Globalement, la contribution démographique et génétique des individus d'élevage à la population sauvage est faible, même si une modification morphologique attribuable aux lâchers a été constatée dans la population sauvage en trente ans. Les conséquences écologiques pour la population réceptrice semblent donc limitées, mais une vigilance continue doit s'exercer concernant la diffusion de pathogènes (forte prévalence occasionnelle de virus Influenza A dans les élevages) et les risques génétiques associés au renforcement sur le long terme.The consequences of releasing captive-reared game animals into the wild have received little attention, despite their potential impact for receiving populations in terms of demography, behaviour, morphometrics, genetics and pathogens. The present study considers Mallards Anas platyrhynchos released for hunting purposes, an increasing practice in Europe over the last 30 years. Because of domestication process in game farm facilities, our study shows high natural mortality of these ducks once released compared to wild Mallards, in addition to high vulnerability to hunting. A clear genetic differentiation allows discrimination of released and wild Mallards. Hybridization with wild Mallards exists, but did not result into significant introgression. Generally, genetic as well as demographic contributions of captive-bred birds to the natural population were low, but a morphological modification associated with releases was recorded over 30 years in natural population. Ecological consequences of the releases for the wild population seem to be limited, but caution should be maintained on the possible transmission of pathogens (occasionally high prevalence of avian Influenza A in some breeding facilities) and the genetic risks associated with long-term releases

Conséquences des introductions d'individus dans les populations exploitées (l'exemple du Canard Colvert Anas platyrhynchos)

Le renforcement des populations naturelles exploitées par des individus captifs est rarement évalué, bien qu'il puisse induire des modifications notables sur la population naturelle à de nombreux niveaux : démographie, comportement, morphologie, génétique, pathogènes. Ce travail de thèse concerne les introductions de canards colverts Anas platyrhynchos réalisées à des fins cynégétiques. Cette pratique est très répandue en Europe, depuis plus de trente ans. Du fait de leur domestication en élevage, les canards lâchés subissent une mortalité naturelle très forte comparée aux oiseaux sauvages, à laquelle s'ajoute une plus grande vulnérabilité à la chasse. Une différenciation génétique marquée permet de discriminer les oiseaux lâchés de leurs congénères sauvages. Des croisements entre les deux groupes sont détectés, mais l'introgression reste limitée. Globalement, la contribution démographique et génétique des individus d'élevage à la population sauvage est faible, même si une modification morphologique attribuable aux lâchers a été constatée dans la population sauvage en trente ans. Les conséquences écologiques pour la population réceptrice semblent donc limitées, mais une vigilance continue doit s'exercer concernant la diffusion de pathogènes (forte prévalence occasionnelle de virus Influenza A dans les élevages) et les risques génétiques associés au renforcement sur le long terme.The consequences of releasing captive-reared game animals into the wild have received little attention, despite their potential impact for receiving populations in terms of demography, behaviour, morphometrics, genetics and pathogens. The present study considers Mallards Anas platyrhynchos released for hunting purposes, an increasing practice in Europe over the last 30 years. Because of domestication process in game farm facilities, our study shows high natural mortality of these ducks once released compared to wild Mallards, in addition to high vulnerability to hunting. A clear genetic differentiation allows discrimination of released and wild Mallards. Hybridization with wild Mallards exists, but did not result into significant introgression. Generally, genetic as well as demographic contributions of captive-bred birds to the natural population were low, but a morphological modification associated with releases was recorded over 30 years in natural population. Ecological consequences of the releases for the wild population seem to be limited, but caution should be maintained on the possible transmission of pathogens (occasionally high prevalence of avian Influenza A in some breeding facilities) and the genetic risks associated with long-term releases.MONTPELLIER-BU Sciences (341722106) / SudocSudocFranceF

Monitoring amphibian species with complex chromatophore patterns: a non- invasive approach with an evaluation of software effectiveness and reliability

International audienceThe estimation of demographic parameters in wild populations is strengthened by individual identification. For amphibians, various techniques are used to either temporarily or permanently mark individuals for identification. Photo-identification of body patterns offers a non-invasive technique. However, the reliability of photo-recognition software is key to the reliable estimation of the true demographic parameters. In the current study, we assessed the effectiveness of fully-automated and semi-automated software: Wild-ID and APHIS. We used the cryptic salamander Hydromantes strinatii as our study species. We used the False Rejection Rate (FRR) of Top 1, Top 5 and Top 10 matches of chest and cloaca pictures. Finally, we assessed the bias induced by our FRR for the estimation of population size through simulation. Wild-ID FRRs ranged from 0.042 to 0.093 while APHIS' ranged from 0.227 to 0.547. Wild-ID was equally efficient with pictures from the chest and from the cloaca, while APHIS was significantly more efficient with chest pictures than cloaca pictures. Cropping pictures did not significantly improve Wild-ID effectiveness. Our Wild-ID FRRs are among the lowest ever obtained from pictures of an amphibian with a complex chromatophore pattern. Simulation showed that the Top 10 FRR from selected software Wild-ID induced a low bias 2.7% on the estimation of population size. The effectiveness and plasticity of Wild-ID provides opportunities for reliably monitoring amphibian species with complex colour pattern

Exploring the relationship between wintering site and survival in a migratory waterbird using different migration routes

CMR data for: Exploring the relationship between wintering site and survival in a migratory waterbird using different migration routes Shortcuts for E-surge usage

Pacific Decadal and El Niño oscillations shape survival of a seabird

International audienceUnderstanding and modeling population change is urgently needed to predict effects of climate change on biodiversity. High trophic-level organisms are influenced by fluctuations of prey quality and abundance, which themselves may depend on climate oscillations. Modeling effects of such fluctuations is challenging because prey populations may vary with multiple climate oscillations occurring at different time scales. The analysis of a 28-yr time series of capture-recapture data of a tropical seabird, the Nazca Booby (Sula granti), in the Gal apagos, Ecuador, allowed us to test for demographic effects of two major ocean oscillations occurring at distinct timescales: the inter-annual El Ni~ no Southern Oscillation (ENSO) and inter-decadal oscillations. As expected for a tropical seabird, survival of fledgling birds was highly affected by extreme ENSO events; by contrast, neither recruitment nor breeding participation were affected by either ENSO or decadal oscillations. More interesting, adult survival, a demographic trait that canalizes response to environmental variations, was unaffected by inter-annual ENSO oscillations yet was shaped by the Pacific Decadal Oscillation and small pelagic fish regime. Adult survival decreased during oceanic conditions associated with higher breeding success, an association probably mediated in this species by costs of reproduction that reduce survival when breeding attempts end later. To our knowledge, this is the first study suggesting that survival of a vertebrate can be vulnerable to a natural multidecadal oscillation

Trois spatules blanches Platalea leucorodia nées en Camargue (Bouches-du-Rhône) contrôlées en hivernage au Soudan du Sud

International audienceThree nestlings of Spoonbill ringed in spring 2016 in the Camargue were resighted on 30 November 2016 in the Bahr El Ghazal province in South Sudan located at some 4 500 km to the south-east of their birthplace. This wintering site is rather unexpected. Although Sudan (at least its northern part) is known since a long time to be reached by a few birds breeding in southeastern Europe (Hungary), the southernmost part (now belonging to South Sudan) may also belong to the species’ wintering area

Consequences of massive bird releases for hunting purposes : mallard Anas platyrhynchos in the Camargue, Southern France

The release of captive-reared fish and game animals into the wild is a common management practice in Europe and North America. In Europe, millions of reared birds are released each year yet the consequences of these release programmes have received little attention. This paper describes the massive introduction of Mallard Anas platyrhynchos, a native migrant species released into the wild to increase the size of hunted populations. It provides the rationale for current and forthcoming experiments aimed at determining the effects of the augmentation of Mallard stocks on wild population genotype and survival rates

Robust estimation of survival and contribution of captive-bred Mallards Anas platyrhynchos to a wild population in a large-scale release programme

International audienceThe survival of captive-bred individuals from release into the wild to their first breeding season is crucial to assess the success of reintroduction or translocation programmes, and to assess their potential impact of wild populations. However, assessing the survival of captive-bred individuals following their release is often complicated by immediate dispersal once in the wild. Here, we apply Lindberg's robust design model, a method that incorporates emigration from the study site, to obtain true estimates of survival of captive-bred Mallards Anas platyrhynchos, a common duck species released on a large scale in Europe since the 1970s. Overall survival rate from release in July until the onset of the next breeding season in April was low (0.18 ± 0.07 se) and equivalent to half the first-year survival of local wild Mallards. Higher overall detectability and temporary emigration during the hunting period revealed movements in response to hunting pressure. Such low survival of released Mallards during their first year may help prevent large-scale genetic mixing with the wild population. Nevertheless, by combining our results with regional waterfowl counts, we estimated that a minimum of 34% of the Mallards in the region were of captive origin at the onset of the breeding season. Although most released birds quickly die, restocking for hunting may be of sufficient magnitude to affect the wild population through genetic homogenization or loss of local adaptation. Robust design protocols allow for the estimation of true survival estimates by controlling for permanent and temporary emigration and may require only a moderate increase in fieldwork effort