Your search keyword '"acclimatization"' showing total 127 results

1. Interannual adjustments in stomatal and leaf morphological traits of European beech (Fagus sylvatica L.) demonstrate its climate change acclimation potential.

Author

Petrik, P., Petek‐Petrik, A., Kurjak, D., Mukarram, M., Klein, T., Gömöry, D., Střelcová, K., Frýdl, J., Konôpková, A., and Schuldt, B.

Subjects

*EUROPEAN beech, *STOMATA, *CLIMATE change, *ACCLIMATIZATION, *DROUGHTS, *LEAF area, *GLOBAL warming

Abstract

The current projections of climate change might exceed the ability of European forest trees to adapt to upcoming environmental conditions. However, stomatal and leaf morphological traits could greatly influence the acclimation potential of forest tree species subjected to global warming, including the single most important forestry species in Europe, European beech.We analysed stomatal (guard cell length, stomatal density and potential conductance index) and leaf (leaf area, leaf dry weight and leaf mass per area) morphological traits of ten provenances from two provenance trials with contrasting climates between 2016 and 2020. The impact of meteorological conditions of the current and preceding year on stomatal and leaf traits was tested by linear and quadratic regressions. Ecodistance was used to capture the impact of adaptation after the transfer of provenances to new environments.Interactions of trial–provenance and trial–year factors were significant for all measured traits. Guard cell length was lowest and stomatal density was highest across beech provenances in the driest year, 2018. Adaptation was also reflected in a significant relationship between aridity ecodistance and measured traits. Moreover, the meteorological conditions of the preceding year affected the interannual variability of stomatal and leaf traits more than the meteorological conditions of the spring of the current year, suggesting the existence of plant stress memory.High intraspecific variability of stomatal and leaf traits controlled by the interaction of adaptation, acclimation and plant memory suggests a high acclimation potential of European beech provenances under future conditions of global climate change. [ABSTRACT FROM AUTHOR]

Published

2022

2. Growth and Morphological Patterns of Norway Spruce (Picea abies (L.) Karst.) Juveniles in Response to Light Intensities.

Author

Bednář, Pavel, Souček, Jiří, Krejza, Jan, and Černý, Jakub

Subjects

SILVER fir, LIGHT intensity, KARST, NORWAY spruce, ACCLIMATIZATION, MORPHOLOGY

Abstract

(1) Background: The growth and morphology of Norway spruce (Picea abies (L.) Karst.) juveniles were observed under different light conditions due to overstory canopy openness. The aim was to investigate the photo-morphological responses of juveniles for the development of a desirable forest structure. The research was located in a higher altitude zone in central Europe. (2) Methods: Light was estimated using hemispherical photographs. Eight different parameters of natural regeneration were measured on individuals within 1 × 1 m around each point on a 3 × 3 m grid. A total of 1214 sapling measurements (from 10 to 431 cm in height) were taken. (3) Results: Light affected the growth and morphological development of juveniles, resulting in variation in the lateral crown growth and crown length. Acclimations manifested as trade-offs between height and lateral crown growth. Similar shifts were found within relative height growth (the terminal length to the total height) and apical dominance ratio (the terminal length to the branch length). The crown length was proven to be highly capable to acclimation. Light influenced the density weakly, however, when a regeneration index (density × median height) was considered, significant relations with light conditions were discovered. [ABSTRACT FROM AUTHOR]

Published

2022

3. North-South Comparatism: New Worldism, Theories of Lack and Acclimatization.

Author

Jobim, José Luís

Subjects

ACCLIMATIZATION, COMPARATIVE literature, PHILOLOGISTS, NATIONALISM

Abstract

In this essay I will use the expression New Worldism to refer to a particular representation of the New World, developed in Europe. I will take some theories related to this expression (theories of lack and acclimatization) to provide a short introduction to them, taking into special consideration their connection to comparatism as it was developed in 19th-century Brazil. [ABSTRACT FROM AUTHOR]

Published

2022

4. Increased acclimation ability accompanies a thermal niche shift of a recent invasion.

Author

Bujan, Jelena, Charavel, Ellouène, Bates, Olivia K., Gippet, Jérôme M. W., Darras, Hugo, Lebas, Claude, Bertelsmeier, Cleo, and Resasco, Julian

Subjects

*ACCLIMATIZATION, *BIOLOGICAL invasions, *INTRODUCED insects, *LOW temperatures, *INTRODUCED species, *ABILITY, *THERMAL expansion

Abstract

Globalization is removing dispersal barriers for the establishment of invasive species and enabling their spread to novel climates. New thermal environments in the invaded range will be particularly challenging for ectotherms, as their metabolism directly depends on environmental temperature. However, we know little about the role climatic niche shifts play in the invasion process, and the underlining physiological mechanisms.We tested if a thermal niche shift accompanies an invasion, and if native and introduced populations differ in their ability to acclimate thermal limits.We used an alien ant species—Tapinoma magnum—which recently started to spread across Europe. Using occurrence data and accompanying climatic variables, we measured the amount of overlap between thermal niches in the native and invaded range. We then experimentally tested the acclimation ability in native and introduced populations by incubating T. magnum at 18, 25 and 30°C. We measured upper and lower critical thermal limits after 7 and 21 days.We found that T. magnum occupies a distinct thermal niche in its introduced range, which is on average 3.5°C colder than its native range. Critical thermal minimum did not differ between populations from the two ranges when colonies were maintained at 25 or 30°C, but did differ after colony acclimation at a lower temperature. We found twofold greater acclimation ability of introduced populations to lower temperatures, after prolonged incubation at 18°C.Increased acclimation ability of lower thermal limits could explain the expansion of the realized thermal niche in the invaded range, and likely contributed to the spread of this species to cooler climates. Such thermal plasticity could be an important, yet so far understudied, factor underlying the expansion of invasive insects into novel climates. [ABSTRACT FROM AUTHOR]

Published

2021

5. The Diapause Lipidomes of Three Closely Related Beetle Species Reveal Mechanisms for Tolerating Energetic and Cold Stress in High-Latitude Seasonal Environments.

Author

Lehmann, Philipp, Westberg, Melissa, Tang, Patrik, Lindström, Leena, and Käkelä, Reijo

Subjects

DIAPAUSE, COLORADO potato beetle, INSECT development, PHYSIOLOGICAL adaptation, MEMBRANE lipids, BEETLES, ACCLIMATIZATION

Abstract

During winter insects face energetic stress driven by lack of food, and thermal stress due to sub-optimal and even lethal temperatures. To survive, most insects living in seasonal environments such as high latitudes, enter diapause, a deep resting stage characterized by a cessation of development, metabolic suppression and increased stress tolerance. The current study explores physiological adaptations related to diapause in three beetle species at high latitudes in Europe. From an ecological perspective, the comparison is interesting since one species (Leptinotarsa decemlineata) is an invasive pest that has recently expanded its range into northern Europe, where a retardation in range expansion is seen. By comparing its physiological toolkit to that of two closely related native beetles (Agelastica alni and Chrysolina polita) with similar overwintering ecology and collected from similar latitude, we can study if harsh winters might be constraining further expansion. Our results suggest all species suppress metabolism during diapause and build large lipid stores before diapause, which then are used sparingly. In all species diapause is associated with temporal shifts in storage and membrane lipid profiles, mostly in accordance with the homeoviscous adaptation hypothesis, stating that low temperatures necessitate acclimation responses that increase fluidity of storage lipids, allowing their enzymatic hydrolysis, and ensure integral protein functions. Overall, the two native species had similar lipidomic profiles when compared to the invasive species, but all species showed specific shifts in their lipid profiles after entering diapause. Taken together, all three species show adaptations that improve energy saving and storage and membrane lipid fluidity during overwintering diapause. While the three species differed in the specific strategies used to increase lipid viscosity, the two native beetle species showed a more canalized lipidomic response, than the recent invader. Since close relatives with similar winter ecology can have different winter ecophysiology, extrapolations among species should be done with care. Still, range expansion of the recent invader into high latitude habitats might indeed be retarded by lack of physiological tools to manage especially thermal stress during winter, but conversely species adapted to long cold winters may face these stressors as a consequence of ongoing climate warming. [ABSTRACT FROM AUTHOR]

Published

2020

6. Timing of autumnal leaf senescence in a common shrub species depends on the level of preceding summer drought symptoms.

Author

Vander Mijnsbrugge, Kristine, Vandepitte, Jasper, Moreels, Stefaan, Mihaila, Victor-Vasile, De Ligne, Liselotte, Notivol, Eduardo, Van Acker, Joris, and Van den Bulcke, Jan

Subjects

*DROUGHTS, *DROUGHT management, *POPULATION differentiation, *SHRUBS, *SUMMER, *SPECIES, *ACCLIMATIZATION

Abstract

More severe water limitations will challenge forest ecosystems in Europe. To gain more insight into the putative consequences for forests, we studied how the common shrub Cornus sanguinea L. responds to a period of water withholding in summer, followed by rewatering. We grew potted saplings of a local Belgian and a Pyrenean provenance in a common garden experiment. We quantified the impact on growth and several phenological traits, with a specific focus on autumnal leaf senescence. We showed that the timing of autumnal leaf senescence was earlier in plants that displayed no to little leaf desiccation due to the experienced drought, compared to the controls. On the contrary, plants that suffered heavy to total leaf desiccation resprouted after the drought period and displayed delayed leaf senescence. No shift in the timing of autumnal leaf senescence was observed for plants with intermediate leaf desiccation. Our results suggest two different post-drought recovery strategies acting in the same experiment. Which strategy was activated depended on the severity of the drought stress, and the two strategies cancelled each other for the group of plants with intermediate drought symptoms. The earlier leaf senescence is likely an acclimation response whereas the delayed leaf senescence enables plants to repair damaged tissues. Our results also suggest provenance-dependent responses as the earlier leaf senescence was activated earlier in the Pyrenean provenance (no difference in timing for the delayed leaf senescence). • Two different post-drought recovery strategies act in the same summer dry-out experiment on a common shrub species. • Which strategy is activated depends on the severity of the preceding drought stress. • Limited leaf desiccation due to the drought leads to an advanced leaf senescence, severe leaf desiccation leads to a delay. • Population differentiation was observed in the responses to the drought stress. [ABSTRACT FROM AUTHOR]

Published

2023

7. The Direct and Indirect Influences of Interrelated Regional-Level Sociodemographic Factors on Heat-Attributable Mortality in Europe: Insights for Adaptation Strategies.

Author

Lloyd SJ, Quijal-Zamorano M, Achebak H, Hajat S, Muttarak R, Striessnig E, and Ballester J

Subjects

Humans, Acclimatization, Temperature, Europe epidemiology, Hot Temperature, Sociodemographic Factors

Abstract

Background: Heat is a significant cause of mortality, but impact patterns are heterogenous. Previous studies assessing such heterogeneity focused exclusively on risk rather than heat-attributable mortality burdens and assume predictors are independent., Objectives: We assessed how four interrelated regional-level sociodemographic predictors-education, life expectancy, the ratio of older to younger people (aging index), and relative income-influence heterogeneity in heat-attributable mortality burdens in Europe and then derived insights into adaptation strategies., Methods: We extracted four outcomes from a temperature-mortality study covering 16 European countries: the rate of increase in mortality risk at moderate and extreme temperatures (moderate and extreme slope, respectively), the minimum mortality temperature percentile (MMTP), and the underlying mortality rate. We used structural equation modeling with country-level random effects to quantify the direct and indirect influences of the predictors on the outcomes., Results: Higher levels of education were directly associated with lower heat-related mortality at moderate and extreme temperatures via lower slopes and higher MMTPs. A one standard deviation increase in education was associated with a - 0.46 ± 0.14 , - 0.41 ± 0.12 , and 0.41 ± 0.12 standard deviation ( ± standard error ) change in the moderate slope, extreme slope, and MMTP, respectively. However, education had mixed indirect influences via associations with life expectancy, the aging index, and relative income. Higher life expectancy had mixed relations with heat-related mortality, being associated with higher risk at moderate temperatures ( 0.33 ± 0.11 for the moderate slope; - 0.19 ± 0.097 for the MMTP) but lower underlying mortality rates ( - 0.72 ± 0.097 ). A higher aging index was associated with higher burdens through higher risk at extreme temperatures ( 0.13 ± 0.072 for the extreme slope) and higher underlying mortality rates ( 0.93 ± 0.055 ). Relative income had relatively small, mixed influences., Discussion: Our novel approach provided insights into actions for reducing the health impacts of heat. First, the results show the interrelations between possible vulnerability-generating mechanisms and suggest future research directions. Second, the findings point to the need for a dual approach to adaptation, with actions that explicitly target heat exposure reduction and actions focused explicitly on the root causes of vulnerability. For the latter, the climate crisis may be leveraged to accelerate ongoing general public health programs. https://doi.org/10.1289/EHP11766.

Published

2023

8. Intra-annual density fluctuations in tree rings are proxies of air temperature across Europe.

Author

Battipaglia G, Kabala JP, Pacheco-Solana A, Niccoli F, Bräuning A, Campelo F, Cufar K, de Luis M, De Micco V, Klisz M, Koprowski M, Garcia-Gonzalez I, Nabais C, Vieira J, Wrzesiński P, Zafirov N, and Cherubini P

Subjects

Temperature, Europe, Cell Cycle, Acclimatization, Altitude

Abstract

Intra-Annual Density Fluctuations (IADFs) are an important wood functional trait that determine trees' ability to adapt to climatic changes. Here, we use a large tree-ring database of 11 species from 89 sites across eight European countries, covering a climatic gradient from the Mediterranean to northern Europe, to analyze how climate variations drive IADF formation. We found that IADF occurrence increases nonlinearly with ring width in both gymnosperms and angiosperms and decreases with altitude and age. Recently recorded higher mean annual temperatures facilitate the formation of IADFs in almost all the studied species. Precipitation plays a significant role in inducing IADFs in species that exhibit drought tolerance capability, and a growth pattern known as bimodal growth. Our findings suggest that species with bimodal growth patterns growing in western and southern Europe will form IADFs more frequently, as an adaptation to increasing temperatures and droughts., (© 2023. The Author(s).)

Published

2023

9. Exploring the effects of protected area networks on the European land system.

Author

Staccione A, Brown C, Arneth A, Rounsevell M, Hrast Essenfelder A, Seo B, and Mysiak J

Subjects

Biodiversity, Europe, Acclimatization, Ecosystem, Conservation of Natural Resources

Abstract

The European Union's Biodiversity Strategy for 2030 seeks to protect 30% of land, with 10% under strict protection, while building a transnational nature network. We explore the effects of the Biodiversity Strategy targets for land use and ecosystem services across the European land system. To do so, we propose a novel approach, combining a methodological framework for improving green network connectivity with an EU-wide land system model. We identify an improved network of EU protected areas consistent with the 2030 targets, and explore its effects under different levels of protection and in a range of paired climatic and socio-economic scenarios. The existing network of protected areas is highly fragmented, with more than one third of its nodes being isolated. We find that prioritizing connectivity when implementing new protected areas could achieve the strategy's targets without compromising the future provision of ecosystem services, including food production, in Europe. However, we also find that EU-wide distributions of land uses and ecosystem services are influenced by the protected area network, and that this influence manifests differently in different climatic and socio-economic scenarios. Varying the strength of protection of the network had limited effects. Extractive services (food and timber production) decreased in protected areas, but non-extractive services increased, with compensatory changes occurring outside the network. Changes were small where competition for land was low and scenario conditions were benign, but became far larger and more extensive where competition was high and scenario conditions were challenging. Our findings highlight the apparent achievability of the EU's protected area targets, but also the need to account for adaptation in the wider land system and its consequences for spatial and temporal patterns of ecosystem services provision now and in the future., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Acknowledgements, (Copyright © 2023. Published by Elsevier Ltd.)

Published

2023

10. Adaptation and altitude sickness: A 40-year bibliometric analysis and collaborative networks.

Author

Zila-Velasque JP, Grados-Espinoza P, Morán-Mariños C, Morales Pocco KO, Capcha-Jimenez US, and Ortiz-Benique ZN

Subjects

Humans, United States, Bibliometrics, Europe, United Kingdom, Publications, Altitude Sickness

Abstract

Introduction: We analyze the scientific production and collaboration networks of studies based on adaptation and altitude diseases in the period 1980-2020., Methods: The publications were extracted from journals indexed in Scopus. The bibliometric analysis was used to analyze the scientific production, including the number of annual publications, the documents, and the characteristics of the publications. With the VOSviewer software, the analysis of collaborative networks, productivity of the countries, as well as the analysis of the co-occurrence of keywords were visualized., Results: 15,240 documents were registered, of which 3,985 documents were analyzed. A significant trend was observed in the number of publications ( R 2 : < 0.001), with annual growth of 4.6%. The largest number of publications were original articles (77.8%), these published more frequently in the journal "Altitude Medicine and Biology". The largest number of countries were from Europe and Asia; however, the largest collaboration network was with the United States. Of the countries with high altitudes, China and Peru ranked first in scientific productivity. The research priorities were on the adaptation mechanism (37.1%), mainly anoxia and respiratory function. Acute mountain sickness (18.4%) and pulmonary edema (14.7%) were the most reported diseases. Of the top 10 institutions, "University of Colorado" and "Universidad Peruana Cayetano Heredia" contributed more than 100 publications.P : < 0.001), with annual growth of 4.6%. The largest number of publications were original articles (77.8%), these published more frequently in the journal "Altitude Medicine and Biology". The largest number of countries were from Europe and Asia; however, the largest collaboration network was with the United States. Of the countries with high altitudes, China and Peru ranked first in scientific productivity. The research priorities were on the adaptation mechanism (37.1%), mainly anoxia and respiratory function. Acute mountain sickness (18.4%) and pulmonary edema (14.7%) were the most reported diseases. Of the top 10 institutions, "University of Colorado" and "Universidad Peruana Cayetano Heredia" contributed more than 100 publications., Conclusions: Scientific production on adaptation and altitude illnesses continues to grow. The United States and United Kingdom present collaborative networks with high-altitude countries. The research is aimed at studying the mechanisms of adaptation to altitude and acute mountain sickness., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zila-Velasque, Grados-Espinoza, Morán-Mariños, Morales Pocco, Capcha-Jimenez and Ortiz-Benique.)

Published

2023

11. A review of growth and life-history traits of native and non-native European populations of black bullhead Ameiurus melas.

Author

Copp, Gordon, Tarkan, Ali, Masson, Gérard, Godard, Michael, Koščo, Ján, Kováč, Vladimír, Novomeská, Andrea, Miranda, Rafael, Cucherousset, Julien, Pedicillo, Giovanni, and Blackwell, Brian

Subjects

*BLACK bullhead, *FISH populations, *LIFE history theory, *PHENOTYPES, *FISH research

Abstract

North American black bullhead, Ameiurus melas, which were introduced to Europe in the nineteenth and twentieth centuries, have received relatively little study. With focus on growth and reproduction, this extensive review, which includes new European data, aims to inform the risk analysis process concerning this non-native species in Europe. Surprisingly, the new data for Europe were more comprehensive than for native populations, with data available mainly from Oklahoma, and North and South Dakota (USA). In terms of relative growth, juvenile A. melas were found to have a relatively uniform body shape regardless of the population's origin, whereas adults developed different phenotypes depending upon location. Overall growth trajectory was significantly faster for native than for non-native populations. Growth index values decreased significantly with increasing latitude in non-native but not native populations-the latter decreasing weakly with increasing altitude in the populations located at latitudes <40°. Mean general condition (slope ' b'), mean sex ratio and mean egg diameter did not differ significantly between native and non-native populations. Absolute fecundity was slightly (but not significantly) higher in non-native than native populations. GSI data, which were very scarce for native populations, suggest gonad production may be slightly higher in native than in non-native populations. Precise data on age at maturity (AaM) are lacking for the native range, where 2-5 years is reported. Whereas, in the introduced range the greatest AaM was 3.5 years, and AaM decreases with increasing juvenile growth (TL at age 3). The populations with fastest juvenile growth tended to be from warmer water bodies where they are considered to be invasive. The great growth and life-history plasticity of black bullhead affords the species great potential to invade and establish viable populations in new areas. [ABSTRACT FROM AUTHOR]

Published

2016

12. Characterising vulnerability of the elderly to climate change in the Nordic region.

Author

Terama, Emma, Carter, Timothy, Fronzek, Stefan, Mela, Hanna, Inkinen, Aino, Lahtinen, Ismo, Lahtinen, Matti, O'Brien, Karen, Rosentrater, Lynn, Ruuhela, Reija, and Simonsson, Louise

Subjects

RISK assessment of climate change, OLDER people, ENVIRONMENTAL impact analysis, ACCLIMATIZATION, MORTALITY

Abstract

Elderly people are known to be more vulnerable than the general population to a range of weather-related hazards such as heat waves, icy conditions and cold periods. In the Nordic region, some of these hazards are projected to change their frequency and intensity in the future, while at the same time strong increases are projected in the proportion of elderly in the population. This paper reports results from three projects studying the potential impacts of climate change on elderly people in the Nordic region. An interactive web-based tool has been developed for mapping and combining indicators of climate change vulnerability of the elderly, by municipality, across three Nordic countries: Finland, Norway and Sweden. The tool can also be used for projecting temperature-related mortality in Finland under different projections of future climate. The approach to vulnerability mapping differs from most previous studies in which researchers selected the indicators to combine into an index. Here, while researchers compile data on indicators that can be accessed in the mapping tool, the onus is on the users of the tool to decide which indicators are of interest and whether to map them individually or as combined indices. Stakeholders with responsibility for the care and welfare of the elderly were engaged in the study through interviews and a workshop. They affirmed the usefulness of the prototype mapping tool for raising awareness about climate change as a potential risk factor for the elderly and offered suggestions on potential refinements, which have now been implemented. These included adding background information on possible adaptation measures for ameliorating the impacts of extreme temperatures, and improved representation of uncertainties in projections of future exposure and adaptive capacity. [ABSTRACT FROM AUTHOR]

Published

2016

13. Forest fires and adaptation options in Europe.

Author

Khabarov, Nikolay, Krasovskii, Andrey, Obersteiner, Michael, Swart, Rob, Dosio, Alessandro, San-Miguel-Ayanz, Jesús, Durrant, Tracy, Camia, Andrea, and Migliavacca, Mirco

Subjects

FOREST fire ecology, ACCLIMATIZATION, FOREST fires, CLIMATE change, ATMOSPHERIC models, FORESTS & forestry, FORESTS & forestry & the environment, MATHEMATICAL models

Abstract

This paper presents a quantitative assessment of adaptation options in the context of forest fires in Europe under projected climate change. A standalone fire model (SFM) based on a state-of-the-art large-scale forest fire modelling algorithm is used to explore fuel removal through prescribed burnings and improved fire suppression as adaptation options. The climate change projections are provided by three climate models reflecting the SRES A2 scenario. The SFM's modelled burned areas for selected test countries in Europe show satisfying agreement with observed data coming from two different sources (European Forest Fire Information System and Global Fire Emissions Database). Our estimation of the potential increase in burned areas in Europe under 'no adaptation' scenario is about 200 % by 2090 (compared with 2000-2008). The application of prescribed burnings has the potential to keep that increase below 50 %. Improvements in fire suppression might reduce this impact even further, e.g. boosting the probability of putting out a fire within a day by 10 % would result in about a 30 % decrease in annual burned areas. By taking more adaptation options into consideration, such as using agricultural fields as fire breaks, behavioural changes, and long-term options, burned areas can be potentially reduced further than projected in our analysis. [ABSTRACT FROM AUTHOR]

Published

2016

14. Spatio-temporal evolution of heat waves severity and expansion across the Iberian Peninsula and Balearic islands.

Author

Díaz-Poso A, Lorenzo N, and Royé D

Subjects

Humans, Spain, Europe, Temperature, Climate Change, Hot Temperature, Acclimatization

Abstract

In the current climate change scenario, heat waves have become one of the most concerning extreme climatic events, both because of their implications for human health and the economy, and because of their increase in intensity and frequency in recent decades. This work presents for the first time a climatological analysis of heat waves in the Iberian Peninsula and Balearic Archipelago (IPB) using the Excess Heat Factor index (EHF). This index considers the factor of intensity and the acclimatization process of human body in the study of heat waves. We focused on the intensity (also called severity), duration, frequency and spatial extension of heat waves in the IPB in the 1950-2020 period. The exceptional heat wave of August 2018 was approached in a similar way to further explore the usefulness of the EHF index. We found that the EHF index identified heat wave conditions 2 days earlier than indices that used only maximum temperatures. Results showed a significant increase in intensity, duration, frequency and spatial extension of heat waves for the whole IPB for 1950-2020 period. The average extent of heat waves increased by 4.0% per decade and the maximum extent by 4.1% per decade. This trend suggested a significant increase in human exposure, droughts, fire risk and energy demand in this region in the last decades., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper, (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

15. Climate-adapted conservation: how to identify robust strategies for the management of reindeer in Hardangervidda National Park (Norway).

Author

Rannow, Sven

Subjects

CLIMATE change, CLIMATOLOGY, ACCLIMATIZATION

Abstract

This paper presents an assessment scheme that should help local conservation management in their adaptation to potential effects of climate change. It can be used for the identification of robust adaptation options at site level. The assessment scheme was applied to the management of Europe's largest population of wild mountain reindeer ( Rangifer tarandus tarandus) living in the arctic-alpine plateau of Hardangervidda in south-western Norway. At first, the last four decades (1964-2004) were analysed to identify climate- and non-climate-related driving forces affecting the population. In addition, regional projections of climate change were used to build scenarios for the potential effects on these driving forces until 2050. In the second step, the potential effects of climate change were classified according to the risk they pose to the conservation of reindeer in Hardangervidda. Based on this assessment, no-regret strategies for biodiversity management under changing climate conditions could be identified. [ABSTRACT FROM AUTHOR]

Published

2013

16. Porcos da metrópole e atuns da colônia: adaptação alimentar dos colonizadores europeus na América portuguesa quinhentista.

Author

dos Santos, Christian Fausto Moraes, da Conceição, Gisele Cristina, and Bracht, Fabiano

Subjects

BIOLOGICAL adaptation, AGRICULTURE, FISHING, ACCLIMATIZATION, NUTRITION

Abstract

Copyright of Estudos Ibero-Americanos is the property of EDIPUCRS - Editora Universitaria da PUCRS and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

17. Variations by degrees: Western European paleoenvironmental fluctuations across MIS 13-11.

Author

Hosfield R

Subjects

Acclimatization, Animals, Europe, Isotopes, Hominidae

Abstract

Marine Isotope Stages (MIS) 13-11 saw a major transformation in the hominin occupation of Europe, with an expansion in the scale and geographical distribution of sites and artifact assemblages. That expansion is explored here in the context of paleoenvironmental variability, focusing on geographical and chronological trends in climatic and habitat conditions at and between key Lower Paleolithic sites in Western Europe. Climatic conditions at British sites are compared across MIS 13-11, and used to test predicted values from the Oscillayers data set. Conditions at hominin and nonhominin sites are compared to explore possible limitations in hominin tolerances during MIS 13-11. Trends in conditions are explored with reference to long-term global patterns, short-term substage events, and seasonal variations. The apparent increase in the scale of hominin activity in north-western Europe during MIS 13 is surprising in light of the relatively harsh conditions of late MIS 13, and is likely to reflect significant physiological and/or behavioral adaptations, a mild south-north temperature gradient in western Europe during MIS 13, and the relatively mild, sustained conditions spanning MIS 15-13. The expanded occupation of north-western Europe during MIS 11 probably reflects the extended mild conditions of MIS 11c, since marked seasonal temperature differences and substantial behavioral changes between hominin sites in MIS 13 and 11 are not clearly evident. Site-specific conditions in south-western Europe during MIS 11 suggest milder winters, warmer summers, and reduced seasonal variability compared to north-western Europe. Some or all of these conditions may have supported larger, core populations, as may the relatively mild conditions associated with south-western European sites during MIS 12. Finally, comparisons between north-western and north-central European sites indicate relatively small differences in seasonal temperatures, suggesting that climate may only be a partial factor behind the smaller-scale occupations of north-central Europe during MIS 13-11., Competing Interests: Declaration of competing interest The author declares that there is no conflict of interest., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

18. Biotic Interactions in the Face of Climate Change: A Comparison of Three Modelling Approaches.

Author

Jaeschke, Anja, Bittner, Torsten, Jentsch, Anke, Reineking, Björn, Schlumprecht, Helmut, and Beierkuhnlein, Carl

Subjects

*CLIMATE change, *ACCLIMATIZATION, *STATISTICAL correlation, *AGRICULTURAL pests

Abstract

Climate change is expected to alter biotic interactions, and may lead to temporal and spatial mismatches of interacting species. Although the importance of interactions for climate change risk assessments is increasingly acknowledged in observational and experimental studies, biotic interactions are still rarely incorporated in species distribution models. We assessed the potential impacts of climate change on the obligate interaction between Aeshna viridis and its egg-laying plant Stratiotes aloides in Europe, based on an ensemble modelling technique. We compared three different approaches for incorporating biotic interactions in distribution models: (1) We separately modelled each species based on climatic information, and intersected the future range overlap ('overlap approach'). (2) We modelled the potential future distribution of A. viridis with the projected occurrence probability of S. aloides as further predictor in addition to climate ('explanatory variable approach'). (3) We calibrated the model of A. viridis in the current range of S. aloides and multiplied the future occurrence probabilities of both species ('reference area approach'). Subsequently, all approaches were compared to a single species model of A. viridis without interactions. All approaches projected a range expansion for A. viridis. Model performance on test data and amount of range gain differed depending on the biotic interaction approach. All interaction approaches yielded lower range gains (up to 667% lower) than the model without interaction. Regarding the contribution of algorithm and approach to the overall uncertainty, the main part of explained variation stems from the modelling algorithm, and only a small part is attributed to the modelling approach. The comparison of the no-interaction model with the three interaction approaches emphasizes the importance of including obligate biotic interactions in projective species distribution modelling. We recommend the use of the 'reference area approach' as this method allows a separation of the effect of climate and occurrence of host plant. [ABSTRACT FROM AUTHOR]

Published

2012

19. Agenda-setting on the environment: the development of climate change adaptation as an issue in European states.

Author

Keskitalo, E. Carina H., Westerhoff, Lisa, and Juhola, Sirkku

Subjects

CLIMATE change, ACCLIMATIZATION, GREENHOUSE gas mitigation, EMISSION control

Abstract

ABSTRACT Adaptation to climate change is increasingly recognized as a necessary complement to mitigation, resulting in a growing number of adaptation policies and actions across the globe. This study applies John Kingdon's theory of agenda setting through a multi-level approach to explain the ways in which the climate change adaptation issue has recently developed in four European countries: the United Kingdom, Sweden, Finland and Italy. The study illustrates that a multi-level adaptation policy window has been opened in the context of the UK, whereas adaptation has mainly developed on the national and in specific local cases in Finland and Sweden, while in Italy the issue remains off the agenda. The study thus shows that policy windows may be supported through the interaction of streams at both national and sub-national levels, particularly buttressed by focusing climate events and media reporting. Copyright © 2012 John Wiley & Sons, Ltd and ERP Environment [ABSTRACT FROM AUTHOR]

Published

2012

20. Effects of acclimation and latitude on the activity thresholds of the aphid Myzus persicae in Europe.

Author

Alford, L., Blackburn, T. M., and Bale, J. S.

Subjects

*LATITUDE, *ACCLIMATIZATION, *GREEN peach aphid, *TEMPERATURE effect, *INSECTICIDE resistance, *GLOBAL warming

Abstract

Activity thresholds were measured in nine anholocyclic clones of the peach-potato aphid Myzus persicae collected along a latitudinal cline of its European distribution from Sweden to Spain. The effects of collection origin and intra- and intergenerational acclimation on these thresholds were investigated. Low-temperature (10°C) acclimation for one generation depressed the movement threshold and chill coma temperatures, with the largest reduction in movement threshold recorded for clone UK 1 (8.8-2.5°C) and in chill coma for UK 2 (4.8-2.0°C). High-temperature (25°C) acclimation for one generation increased the heat movement threshold and heat coma temperature with the largest increase in the movement threshold (40.1-41.1°C) and heat coma (41.4-42.3°C) recorded for clone Swed 1. There was no further intergenerational acclimation over three generations. High-temperature activity thresholds were less plastic than low-temperature thresholds, and, consequently, thermal activity ranges were expanded following low-temperature acclimation. No constant affect of acclimation was observed on chill coma recovery, although clonal differences were observed with Swed 1 and 3 requiring some of the longest complete recovery times. There was no relationship between latitude and activity thresholds with the exception of heat coma data where Scandinavian clones Swed 2 and 3 consistently displayed some of the lowest heat coma temperatures (e.g. 41.3°C for both clones at 20°C) and Mediterranean clones Span 1, 2 and 3 displayed some of the highest (e.g. 42.1, 41.9 and 42.5°C, respectively, at 20°C). These data suggest that clonal mixing could occur over a large scale across Europe, limiting local adaptation to areas where conditions enable long-term persistence of populations, e.g. adaptation to higher temperatures in the Mediterranean region. It is suggested that aphid thermal tolerance could be governed more by clonal type than the latitudinal origin. [ABSTRACT FROM AUTHOR]

Published

2012

21. Costing the impact of climate change on tourism in Europe: results of the PESETA project.

Author

Amelung, Bas and Moreno, Alvaro

Subjects

CLIMATE change, ACCLIMATIZATION, TOURISM, GLOBAL temperature changes

Abstract

Climate change might lead to large shifts in tourist flows, with large economic implications. This article simulates the effect of future climate change by the 2080s on outdoor international tourism expenditure within Europe. The assessment is based on the statistical relationship between bed nights and a climate-related index of human comfort, after accounting for other determinants of bed nights such as income and prices. It is concluded that climate change could have significant impacts on the regional distribution of the physical resources supporting tourism in Europe. For example, in summer, Southern Europe could experience climate conditions that are less favourable to tourism than the current climate, while countries in the North could enjoy better conditions. The economic effects of these changes are likely to be sizeable, albeit difficult to assess. Crucially, they are shown to depend on tourists' temporal flexibility with respect to holiday planning. The greater the prominence of institutional rigidities such as school holidays, the larger the differences between winning and losing regions in terms of economic impact. [ABSTRACT FROM AUTHOR]

Published

2012

22. From climate change impacts to the development of adaptation strategies: Challenges for agriculture in Europe.

Author

Iglesias, Ana, Quiroga, Sonia, Moneo, Marta, and Garrote, Luis

Subjects

CLIMATE change, WATER reuse, WATER use, ACCLIMATIZATION

Abstract

This study links climate change impacts to the development of adaptation strategies for agriculture in Europe. Climate change is expected to intensify the existing risks, particularly in southern regions, and create new opportunities in some northern areas. These risks and opportunities are characterised and interpreted across European regions by analysing over 300 highly relevant publications that appeared in the last decade. The result is a synthesis of the reasons for concern for European agricultural regions. The need to respond to these risks and opportunities is addressed by evaluating the costs and benefits of a number of technical and policy actions. The results highlight the importance of enhanced water use efficiency as a critical response to climate risks and the need for a more effective extension service. These results aim to assist stakeholders as they take up the adaptation challenge and develop measures to reduce the vulnerability of the sector to climate change. [ABSTRACT FROM AUTHOR]

Published

2012

23. Diversity in the Response to Low Temperature in Representative Barley Genotypes Cultivated in Europe.

Author

Rizza, F., Pagani, D., Gut, M., Práil, I.T., Lago, C., Tondelli, A., Orrü, L., Mazzucotelli, E., Francia, E., Badeck, F.-W., Crosatti, C., Terzi, V., Cattivelli, L., and Stanca, A. M.

Subjects

*AGRICULTURAL climatology, *LOW temperatures, *BARLEY, *ACCLIMATIZATION, *VERNALIZATION

Abstract

Barley (Hordeum vulgare L.) production in many regions is constrained by low temperatures. Numerous screening methods have been proposed for studies of freezing tolerance (FT) and 4/inter hardiness (WH), Here, we compared the response to low temperature of 54 barley genotypes released in Europe. Major components of WH were analyzed in field and growth chamber experiments under different hardening and freezing conditions. Phenotype screening of freezing injury (lethal temperature for 50% of the plants [I50], plant survival, and chlorophyll f!uorescence) and indirect evaluations (molecular-marker-based analysis of vernalization requirement) were used. The maximum quanyield of the photosystem II photochemistry measured as the variable (F) to maximal (Fm) fluorescence ratio (Fy:Fm) analysis was confirmed as a reliable method of screening genetic diversity for FT in plants at early growth stages. Variability for FT was also found after shorter acclimation at optimal (3/1°C day/night) or suboptimal (12/7°C day/night) hardening temperatures. High levels of FT and WH were found in both winter and facultative growth habits. Facultative genotypes were more responsive to early hardening than spring or winter types. Some of them coped best with frost in both laboratory and field experiments. The most tolerant winter genotypes coped best with prolonged exposure to low temperature in the field experiments. A conservative estimation of the role of FT in WH implies that at least 50% of WH was associated with the level of FT. A combined analysis using physiological and molecular tools is proposed for phenotyping WH in large populations. [ABSTRACT FROM AUTHOR]

Published

2011

24. Morning release into artificial burrows with retention caps facilitates success of European ground squirrel ( Spermophilus citellus) translocations.

Author

Gedeon, C. I., Váczi, O., Koósz, B., and Altbäcker, V.

Subjects

GROUND squirrels, WILDLIFE management, WILDLIFE conservation, ACCLIMATIZATION

Abstract

Relocating ground squirrels within their natural distribution range is a popular tool in wildlife management in Central-Eastern Europe. Nevertheless, wildlife management lacks both a carefully developed and tested translocation guide and methods. We evaluated conditions of release method (time of release and retention of animals) that affect short-term settlement of translocated ground squirrels in the central region of Hungary. In a field experiment, we translocated 117 individuals from an international airport to a protected site in 2000. We found that release time should precede the animals' natural, daily activity peak. The use of retention caps combined with artificial burrows instead of complex acclimation cages works successfully to prevent animals from dispersing from the release site. [ABSTRACT FROM AUTHOR]

Published

2011

25. Policy & Planning Brief.

Author

O'Neill, Eoin and Scott, Mark

Subjects

*GOVERNMENT policy on climate change, *CLIMATE change mitigation, *ACCLIMATIZATION

Abstract

The article focuses on the European Union's (EU) White Paper "Adapting To Climate Change: Towards a European Framework for Action." It says that the paper outlines the EU's approach to mitigating European vulnerability to climate change and sets out its commitment to resolving climate change. It also states that the paper is designed as a first step for mainstreaming climate change adaptation throughout EU policy sectors.

Published

2011

26. CLIMATE CHANGE LITIGATION AND EU ENVIRONMENTAL LIABILITY DIRECTIVE.

Author

Vujanić, Vanesa

Subjects

CLIMATE change, CLIMATOLOGY, ACCLIMATIZATION, ENVIRONMENTAL law, GLOBAL warming laws, ENVIRONMENTAL policy, LEGISLATION, LEGISLATIVE bills

Abstract

Copyright of Collected Papers of the Faculty of Law in Split / Zbornik Radova Pravnog Fakulteta u Splitu is the property of Split Faculty of Law and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

27. Bayesian multi-model projections of climate: generalization and application to ENSEMBLES results.

Author

Buser, C. M., Künsch, H. R., and Schär, C.

Subjects

CLIMATOLOGY, CLIMATE change, BAYESIAN analysis, ACCLIMATIZATION, TEMPERATURE

Abstract

In a previous study, we developed a Bayesian methodology for combining multi-model climate change simulations into a single probabilistic projection which addresses changes in inter-annual variability beyond changes in mean temperature, and which explicitly considers time-dependent model biases. We tested 2 different but equally plausible bias assumptions referred to as 'constant bias' and 'constant relationship'. The former assumes that the biases in control and scenario periods are approximately constant, following the implicit assumption in most climate change studies. The latter approach follows seasonal forecasting procedures by assuming an approximate linear relationship between observed and simulated seasonal temperatures. In the present study we generalized this approach by combining the 2 bias assumptions into a single probabilistic projection. In cases where the 2 assumptions yield conflicting results, our methodology implicates a broader probability density function, thereby reflecting the increased level of uncertainty. We applied the new method to area-mean seasonal temperature distributions from global/regional climate model simulations of the ENSEMBLES project. Results are presented for changes in mean and variability between control (1961-1990) and scenario (2021-2050) periods. In comparison to the multi-model mean, the generalized Bayes method projected a considerably weaker warming during summer and autumn in much of continental Europe, a stronger winter warming in Scandinavia, France, eastern and central Europe, and a weaker warming in both summer and winter in the Mediterranean. These differences can be traced back to the models' difficulties in representing the natural interannual variability in these regions. [ABSTRACT FROM AUTHOR]

Published

2010

28. Weighted frequency distributions express modelling uncertainties in the ENSEMBLES regional climate experiments.

Author

Déqué, M. and Somot, S.

Subjects

CLIMATE change, ACCLIMATIZATION, CLIMATOLOGY, METEOROLOGICAL precipitation, DISTRIBUTION (Probability theory)

Abstract

Fourteen regional climate models (RCMs) were driven by general circulation models (GCMs) in FP6-ENSEMBLES to provide 17 fine-scale (25 km) climate change scenarios for the period 2021-2050. In a preliminary exercise, these RCMs were driven by gridded observations (ERA40 reanalysis) to simulate as accurately as possible the 1961-2000 period. The quality of this reproduction was used to calculate a weight for each model. Each individual model climate had an uncertainty due to the finite sampling (30 yr). These spreads were combined by those weights to produce an ensemble uncertainty. We illustrate here the daily and climatological frequency distributions for winter and summer temperature and precipitation in 3 European cities (Budapest, Dublin and Lisbon). The distribution obtained by ENSEMBLES weights was compared with a distribution using equal weights, distributions using random weights and distributions based on a single model. As far as the reproduction of the observed distribution (1961-1990) is concerned, there is no evidence that the ENSEMBLES weight system provides results closer to observation than equal weights or weights drawn at random. A single model taken at random yields a quality score not better than ENSEMBLES in the case of precipitation, and worse than ENSEMBLES in the case of temperature. As far as climate change for 2021-2050 is concerned, the use of ENSEMBLES weights instead of equal weights also leads to a similar response at daily as well as 30 yr mean time scales. [ABSTRACT FROM AUTHOR]

Published

2010

29. A Broad Assessment of Factors Determining Culicoides imicola Abundance: Modelling the Present and Forecasting Its Future in Climate Change Scenarios.

Author

Acevedo, Pelayo, Ruiz-Fons, Francisco, Estrada, Rosa, Márquez, Ana Luz, Miranda, Miguel Angel, Gortázar, Christian, and Lucientes, Javier

Subjects

*BLUETONGUE, *CULICOIDES, *CLIMATE change, *CERATOPOGONIDAE, *ENDEMIC plants, *ARTHROPOD vectors, *ORBIVIRUSES, *ACCLIMATIZATION

Abstract

Bluetongue (BT) is still present in Europe and the introduction of new serotypes from endemic areas in the African continent is a possible threat. Culicoides imicola remains one of the most relevant BT vectors in Spain and research on the environmental determinants driving its life cycle is key to preventing and controlling BT. Our aim was to improve our understanding of the biotic and abiotic determinants of C. imicola by modelling its present abundance, studying the spatial pattern of predicted abundance in relation to BT outbreaks, and investigating how the predicted current distribution and abundance patterns might change under future (2011-2040) scenarios of climate change according to the Intergovernmental Panel on Climate Change. C. imicola abundance data from the bluetongue national surveillance programme were modelled with spatial, topoclimatic, host and soil factors. The influence of these factors was further assessed by variation partitioning procedures. The predicted abundance of C. imicola was also projected to a future period. Variation partitioning demonstrated that the pure effect of host and topoclimate factors explained a high percentage (>80%) of the variation. The pure effect of soil followed in importance in explaining the abundance of C. imicola. A close link was confirmed between C. imicola abundance and BT outbreaks. To the best of our knowledge, this study is the first to consider wild and domestic hosts in predictive modelling for an arthropod vector. The main findings regarding the near future show that there is no evidence to suggest that there will be an important increase in the distribution range of C. imicola; this contrasts with an expected increase in abundance in the areas where it is already present in mainland Spain. What may be expected regarding the future scenario for orbiviruses in mainland Spain, is that higher predicted C. imicola abundance may significantly change the rate of transmission of orbiviruses. [ABSTRACT FROM AUTHOR]

Published

2010

30. Impact and adaptation opportunities for European agriculture in response to climatic change and variability.

Author

Moriondo, Marco, Bindi, Marco, Kundzewicz, Zbigniew, Szwed, M., Chorynski, A., Matczak, P., Radziejewski, M., McEvoy, D., and Wreford, Anita

Subjects

AGRICULTURAL ecology, VEGETATION & climate, CLIMATE change, ACCLIMATIZATION, GLOBAL warming, HEAT waves (Meteorology)

Abstract

Climate change, involving changes in mean climate and climatic variability, is expected to severely affect agriculture and there is a need to assess its impact in order to define the appropriate adaptation strategies to cope with. In this paper, we projected a scenario of European agriculture in a +2°C (above pre-industrial levels) world in order to assess the potential effect of climatic change and variability and to test the effectiveness of different adaptation options. For this purpose, the outputs of HadCM3 General Circulation Model (GCM) were empirically downscaled for current climate (1975-2005) and a future period (2030-2060), to feed a process-based crop simulation model, in order to quantify the impact of a changing climate on agriculture emphasising the impact due to changes in the frequency of extreme events (heat waves and drought). The same climatic dataset was used to compare the effectiveness of different adaptations to a warmer climate strategies including advanced or delayed sowing time, shorter or longer cycle cultivar and irrigation. The results indicated that both changes in mean climate and climate variability affected crop growth resulting in different crop fitting capacity to cope with climate change. This capacity mainly depended on the crop type and the geographical area across Europe. A +2°C scenario had a higher impact on crops cultivated over the Mediterranean basin than on those cultivated in central and northern Europe as a consequence of drier and hotter conditions. In contrast, crops cultivated in Northern Europe generally exhibited higher than current yields, as a consequence of wetter conditions, and temperatures closer to the optimum growing conditions. Simple, no-cost adaptation options such as advancement of sowing dates or the use of longer cycle varieties may be implemented to tackle the expected yield loss in southern Europe as well as to exploit possible advantages in northern regions. [ABSTRACT FROM AUTHOR]

Published

2010

31. Assessing adaptation to extreme weather events in Europe-Editorial.

Author

Mechler, Reinhard and Kundzewicz, Zbigniew

Subjects

CLIMATE change, ACCLIMATIZATION, WEATHER, DEFORESTATION, FLOODS, ENVIRONMENTAL risk assessment

Published

2010

32. Assessing river flood risk and adaptation in Europe-review of projections for the future.

Author

Kundzewicz, Zbigniew, Lugeri, Nicola, Dankers, Rutger, Hirabayashi, Yukiko, Döll, Petra, Pińskwar, Iwona, Dysarz, Tomasz, Hochrainer, Stefan, and Matczak, Piotr

Subjects

ENVIRONMENTAL risk assessment, FLOODS, ECONOMIC development, FLOOD damage, ACCLIMATIZATION, CLIMATE change, RAINFALL

Abstract

Flood damages have exhibited a rapid upward trend, both globally and in Europe, faster than population and economic growth. Hence, vigorous attempts of attribution of changes have been made. Flood risk and vulnerability tend to change over many areas, due to a range of climatic and nonclimatic impacts whose relative importance is site-specific. Flooding is a complex phenomenon and there are several generating mechanisms, among others intense and/or long-lasting precipitation, snowmelt, ice jam. Projected climate-driven changes in future flood frequency are complex, depending on the generating mechanism, e.g., increasing flood magnitudes where floods result of heavy rainfall and possibly decreasing magnitudes where floods are generated by spring snowmelt. Climate change is likely to cause an increase of the risk of riverine flooding across much of Europe. Projections of flood hazard in Europe based on climatic and hydrological models, reviewed in this paper, illustrate possible changes of recurrence of a 100-year flood (with probability of exceedance being 1-in-100 years) in Europe. What used to be a 100-year flood in the control period is projected to become either more frequent or less frequent in the future time horizon of concern. For a large part of the continent, large flooding is projected to become more commonplace in future, warmer climate. Due to the large uncertainty of climate projections, it is currently not possible to devise a scientifically-sound procedure for redefining design floods (e.g. 100-year flood) in order to adjust flood defenses. For the time being, we recommend to adjust design floods using a 'climate change factor' approach. [ABSTRACT FROM AUTHOR]

Published

2010

33. Assessing risk and adaptation options to fires and windstorms in European forestry.

Author

Schelhaas, Mart-Jan, Hengeveld, Geerten, Moriondo, Marco, Reinds, Gert, Kundzewicz, Zbigniew, Maat, Herbert, and Bindi, Marco

Subjects

ENVIRONMENTAL risk assessment, NATURAL disasters, WINDSTORMS, CLIMATE change, ACCLIMATIZATION, FOREST fires, FIRE weather

Abstract

Risks can generally be described as the combination of hazard, exposure and vulnerability. Using this framework, we evaluated the historical and future development of risk of fire and wind damage in European forestry at the national level. Fire risk is expected to increase, mainly as a consequence of an increase in fire hazard, defined as the Fire Weather Index in summer. Exposure, defined as forest area, is expected to increase slightly as a consequence of active afforestation and abandonment of marginal agricultural areas. Adaptation options to fire risk should therefore aim to decrease the vulnerability, where a change in tree species from conifers to broadleaves had most effect. Risk for wind damage in forests is expected to increase mainly as a consequence of increase in exposure (total growing stock) and vulnerability (defined by age class and tree species distribution). Projections of future wind climate indicate an increase in hazard (storminess) mainly over Western Europe. Adaptation options should aim to limit the increase in exposure and vulnerability. Only an increase in harvest level can stop the current build-up of growing stock, while at the same time it will lower vulnerability through the reduction of the share of old and vulnerable stands. Changing species from conifers to broadleaves helps to reduce vulnerability as well. Lowering vulnerability by decreasing the rotation length is only effective in combination with a high demand for wood. Due to data limitations, no forecast of future fire area or damaged timber amount by storms was possible. [ABSTRACT FROM AUTHOR]

Published

2010

34. A Joint Estimate of the Precipitation Climate Signal in Europe Using Eight Regional Models and Five Observational Datasets.

Author

Tapiador, Francisco J.

Subjects

*CLIMATE change research, *METEOROLOGICAL precipitation, *PRECIPITATION variability, *GLOBAL temperature changes, *ACCLIMATIZATION

Abstract

This paper presents an analysis of the precipitation climate signal in Europe emerging from a simulation of heterogeneous regional climate models (RCMs) using five observational datasets as the reference for present day climate conditions. Current climate simulations, as well as those from the A2 family of scenarios from the Intergovernmental Panel on Climate Change Special Report on Emissions Scenarios (SRES-A2), from eight RCMs involved in the Prediction of Regional Scenarios and Uncertainties for Defining European Climate Change Risks and Effects (PRUDENCE) project have been cross-compared with data from the Climate Research Unit (CRU), the Global Precipitation Climatology Project (GPCP), the Global Precipitation Climatology Centre (GPCC), the Climate Prediction Center (CPC), and the CPC Merged Analysis of Precipitation (CMAP) databases for Europe. The RCMs used are HIRHAM, the Climate High Resolution Model (CHRM), the Rossby Centre Atmosphere–Ocean (RCAO) model, the GKSS Climate Version of the Local Model (CLM), the Hadley Center RCM (HadRM3H), the Atmospheric Hydrostatic Regional Model (REMO), the Prognostic Model at the Mesoscale (PROMES), and the regional coupled ocean–atmosphere–ice model (RACMO). The comparison shows that the climate signal has to be interpreted depending on the reference data used. Although each validation dataset has its own relative merits and shortcomings, it is known that all of the datasets present variable uncertainties and error sources, which impedes consideration of a single dataset as the only valid representation of actual precipitation. Hence, it is suggested that a robust joint estimate of changes in future precipitation might include the uncertainties of both the RCMs and those of the observational datasets. After accounting for the difference between observed and simulated precipitation in the present climate, the analysis of such joint estimates reveals significant agreement in the climate signal for most of Europe. This lends confidence to the idea that the RCMs are able to correctly simulate future changes in precipitation. [ABSTRACT FROM AUTHOR]

Published

2010

35. Modeling wheat and triticale winter hardiness under current and predicted winter scenarios for Central Europe: A focus on deacclimation.

Author

Rapacz, Marcin, Macko-Podgórni, Alicja, Jurczyk, Barbara, and Kuchar, Leszek

Subjects

*ACCLIMATIZATION, *WINTER wheat, *WHEAT, *WINTER, *WHEAT breeding, *TRITICALE, *SEVERE storms

Abstract

• Empirical models of winter survival of winter wheat and triticale were developed. • Different weather variables affected the winter survival of both species. • Wheat was more susceptible than triticale to severe winter weather. • In a warmer climate, deacclimation from warm spells can reduce winter survival. Winter hardiness depends on the ability of plants to tolerate a wide spectrum of environmental stresses, which can be affected by climate change in complex ways. Here, empirical Partial Least Squares Regression (PLSS) models of winter survival (WS) of winter wheat (Triticum aestivum L.) and triticale (Triticosecale x Wittmack) were created using data from six years of field experiments at multiple locations throughout Poland. These included 553 winter wheat and 155 triticale accessions. Our aims were to: 1) predict WS on the basis of meteorological data; 2) identify the most critical weather events affecting WS of winter wheat and triticale under Polish conditions; and 3) predict WS for the simulated winters of 2040, 2060 and 2080 under climate change scenarios RCP2.6, RCP4.5, RCP6.0 and RCP8.5 for the experimental site with the lowest mean WS rate during the field experiments. The empirical models showed a high R2 for winter wheat (0.751), and a low R2 for winter triticale (0.160), because of the low winter damage to triticale observed during the experiments. The key climate factors affecting WS varied between species. Winter wheat was affected by winter severity, the number of freezing-thawing cycles, the thermal vegetation index and the freezing index in various winter months. Triticale was affected by late winter ice encasement and high numbers of freeze-thaw events. The predictions indicated that the WS of both winter wheat and triticale may decrease in the future, especially when more extreme climate change scenarios were considered. The main issue will be cold deacclimation connected with climate warming which will be more important for WS than the general increase in minimum winter temperatures. This finding indicates that deacclimation tolerance should be included in wheat and triticale breeding programs as a trait crucial for WS under future winters, at least in Central Europe. [ABSTRACT FROM AUTHOR]

Published

2022

36. Potential distribution ranges in Europe for Aeolesthes sarta, Tetropium gracilicorne and Xylotrechus altaicus, a CLIMEX analysis.

Author

Vanhanen, H., Veteli, T. O., and Niemel, P.

Subjects

*BEETLES, *POPULATION, *CLIMATE change, *ACCLIMATIZATION

Abstract

In this study, the potential distribution ranges for three different Asian Cerambycid beetles, Aeolesthes sarta (Solsky), Tetropium gracilicorne (Reitter) and Xylotrechus altaicus (Gebler), were simulated using the climatic modeling program CLIMEX. This program calculates an ecoclimatic index based on the life cycle requirements of a species and thus represents the probability of a viable population existing at a certain location. Simulations show that all of the studied species have a potential distribution in Europe according to climatic factors. Also, potential hosts for these species grow in much of Europe, making the potential establishment of these species possible. Simulation with Intergovernmental Panel on Climate Change (IPCC) climate change scenario A1B resulted in changes of 200 to 1100 km at the northern and southern edges of the distribution range for the studied species. [ABSTRACT FROM AUTHOR]

Published

2008

37. A Significant Upward Shift in Plant Species Optimum Elevation During the 20th Century.

Author

Lenoir, J., Gégout, J. C., Marquet, P. A., de Ruffray, P., and Brisse, H.

Subjects

*CLIMATE change, *PLANT species, *ACCLIMATIZATION, *CLIMATOLOGY, *FOREST plants, *FORESTS & forestry, *ARBORICULTURE

Abstract

Spatial fingerprints of climate change on biotic communities are usually associated with changes in the distribution of species at their latitudinal or attitudinal extremes. By comparing the attitudinal distribution of 171 forest plant species between 1905 and 1985 and 1986 and 2005 along the entire elevation range (0 to 2600 meters above sea level) in west Europe, we show that climate warming has resulted in a significant upward shift in species optimum elevation averaging 29 meters per decade. The shift is larger for species restricted to mountain habitats and for grassy species, which are characterized by faster population turnover. Our study shows that climate change affects the spatial core of the distributional range of plant species, in addition to their distributional margins, as previously reported. [ABSTRACT FROM AUTHOR]

Published

2008

38. Competing roles of rising CO2 and climate change in the contemporary European carbon balance.

Author

Harrison, R. G., Jones, C. D., and Hughes, J. K.

Subjects

ATMOSPHERIC carbon dioxide, CARBON dioxide mitigation, CARBON dioxide & the environment, CLIMATE change, CLIMATOLOGY, BIOTIC communities, ECOSYSTEM management, ACCLIMATIZATION

Abstract

Natural ecosystems respond to, and may affect climate change through uptake and storage of atmospheric CO2. Here we use the land-surface and carbon cycle model JULES to simulate the contemporary European carbon balance and its sensitivity to rising CO2 and changes in climate. We find that the impact of climate change is to decrease the ability of Europe to store carbon by 97 TgC yr-1. In contrast, the effect of rising atmospheric CO2 has been to stimulate increased uptake and storage. The CO2 effect is currently dominant leading to a net increase of 114 TgC yr-1. Our simulations do not at present include other important factors such as land use and management, the effects of forest age classes and nitrogen deposition. Understanding this balance and its implications for mitigation policies is becoming increasingly important. [ABSTRACT FROM AUTHOR]

Published

2008

39. Intraspecific consistency and geographic variability in temporal trends of spring migration phenology among European bird species.

Author

Rubolini, Diego, Møller, Anders P., Rainio, Kalle, and Lehikoinen, Esa

Subjects

CLIMATE change, ANIMAL migration, BIRD populations, PHENOTYPIC plasticity, ANIMAL behavior, SPATIO-temporal variation, ACCLIMATIZATION

Abstract

In the course of the 20th century, migratory birds have shown rapid phenological changes in response to climate change. However, the spatial variability of phenological changes, as well as their intraspecific consistency, remains largely unexplored. Here we analysed 672 estimates of change in first arrival dates of migratory birds and 289 estimates of mean/median arrival dates, based on time series with a minimum duration of 15 yr, collected across Europe from 1969 to 2006. There were highly significant advances in arrival date, significantly more so for first than mean arrival date. Change in arrival dates significantly varied among species, implying that response to climate change is a species-specific feature, and showed substantial phylogenetic effects, since ca. 50 % of the variation in the observed trends was attributable to differences among species. The advance in first arrival date was weaker at extreme latitudes and stronger at intermediate latitudes, while geographic variation in mean arrival dates was less pronounced. Both first and mean arrival dates advanced the most for short- compared to long-distance migrants. These findings emphasize the reliability of estimates of phenological trends of avian species, which are therefore suitable to be included in comparative analyses aimed at identifying species-specific traits that favour adaptation to climatic changes. In addition, our results suggest that analyses of factors that have affected phenological responses to climate change should take into account spatial variation in the response, which could be due to spatial differences in the strength of climate change. [ABSTRACT FROM AUTHOR]

Published

2007

40. Implications of climate change for the stomatal flux of ozone: A case study for winter wheat

Author

Harmens, Harry, Mills, Gina, Emberson, Lisa D., and Ashmore, Mike R.

Subjects

EFFECT of ozone on plants, CLIMATE change, VEGETATION & climate, AGRICULTURAL climatology, BIOCLIMATOLOGY, ACCLIMATIZATION, WINTER wheat

Abstract

Climate change factors such as elevated CO2 concentrations, warming and changes in precipitation affect the stomatal flux of ozone (O3) into leaves directly or indirectly by altering the stomatal conductance, atmospheric O3 concentrations, frequency and extent of pollution episodes and length of the growing season. Results of a case study for winter wheat indicate that in a future climate the exceedance of the flux-based critical level of O3 might be reduced across Europe, even when taking into account an increase in tropospheric background O3 concentration. In contrast, the exceedance of the concentration-based critical level of O3 will increase with the projected increase in tropospheric background O3 concentration. The influence of climate change should be considered when predicting the future effects of O3 on vegetation. There is a clear need for multi-factorial, open-air experiments to provide more realistic information for O3 flux-effect modelling in a future climate. [Copyright &y& Elsevier]

Published

2007

41. Assessing and predicting the success of Najas flexilis (Willd.) Rostk. & Schmidt, a rare European aquatic macrophyte, in relation to lake environmental conditions.

Author

Wingfield, Ruth, Murphy, Kevin J., and Gaywood, Martin

Subjects

*NAJAS flexilis, *BIOLOGICAL adaptation, *VEGETATION dynamics, *BIOLOGICAL variation, *HABITATS, *ACCLIMATIZATION, *ACIDIFICATION, *EUTROPHICATION, *AQUATIC plants, *LAKES

Abstract

Najas flexilis (Willd.) Rostk. & Schmidt is a submerged annual macrophyte, rare in Europe, which is protected under the EC Habitats Directive. N. flexilis appears to be decreasing in the British Isles, its main stronghold in Europe. We outline the environmental conditions required for N. flexilis growth, comparing between present and recently extinct sites for the plant. Plant traits (leaf area/shoot length; and reproductive number/shoot length) can be used to assess N. flexilis population success, and models are produced that can predict this. Both the comparison between present and extinct sites, and the models, suggest that eutrophication and acidification of lakes are the main threats to N. flexilis. Acidification appears to reduce the ability of N. flexilis to produce seeds (potentially fatal for an annual). On the other hand, eutrophication leads to conditions where N. flexilis, an obligate carbon dioxide utiliser, cannot photosynthesise due to the predominance of bicarbonate rather than dissolved carbon dioxide in lake water. [ABSTRACT FROM AUTHOR]

Published

2006

42. European phenological response to climate change matches the warming pattern.

Author

MENZEL, ANNETTE, SPARKS, TIM H., ESTRELLA, NICOLE, KOCH, ELISABETH, AASA, ANTO, AHAS, REIN, ALM-KÜBLER, KERSTIN, BISSOLLI, PETER, BRASLAVSKÁ, OL'GA, BRIEDE, AGRITA, CHMIELEWSKI, FRANK M., CREPINSEK, ZALIKA, CURNEL, YANNICK, DAHL, ÅSLÖG, DEFILA, CLAUDIO, DONNELLY, ALISON, FILELLA, YOLANDA, JATCZAK, KATARZYNA, MÅGE, FINN, and MESTRE, ANTONIO

Subjects

*PHENOLOGY, *CLIMATE change, *CLIMATOLOGY, *BIOCLIMATOLOGY, *BIOLOGICAL systems, *ATMOSPHERIC temperature, *ACCLIMATIZATION, *BIOLOGICAL adaptation

Abstract

Global climate change impacts can already be tracked in many physical and biological systems; in particular, terrestrial ecosystems provide a consistent picture of observed changes. One of the preferred indicators is phenology, the science of natural recurring events, as their recorded dates provide a high-temporal resolution of ongoing changes. Thus, numerous analyses have demonstrated an earlier onset of spring events for mid and higher latitudes and a lengthening of the growing season. However, published single-site or single-species studies are particularly open to suspicion of being biased towards predominantly reporting climate change-induced impacts. No comprehensive study or meta-analysis has so far examined the possible lack of evidence for changes or shifts at sites where no temperature change is observed. We used an enormous systematic phenological network data set of more than 125 000 observational series of 542 plant and 19 animal species in 21 European countries (1971–2000). Our results showed that 78% of all leafing, flowering and fruiting records advanced (30% significantly) and only 3% were significantly delayed, whereas the signal of leaf colouring/fall is ambiguous. We conclude that previously published results of phenological changes were not biased by reporting or publication predisposition: the average advance of spring/summer was 2.5 days decade−1 in Europe. Our analysis of 254 mean national time series undoubtedly demonstrates that species' phenology is responsive to temperature of the preceding months (mean advance of spring/summer by 2.5 days°C−1, delay of leaf colouring and fall by 1.0 day°C−1). The pattern of observed change in spring efficiently matches measured national warming across 19 European countries (correlation coefficient r=−0.69, P<0.001). [ABSTRACT FROM AUTHOR]

Published

2006

43. The impacts of climate change on the risk of natural disasters.

Author

van Aalst, Maarten K.

Subjects

*CLIMATE change, *ENVIRONMENTAL risk assessment, *GREENHOUSE gases, *ACCLIMATIZATION, *ENVIRONMENTAL management, *HAZARDOUS geographic environments, *SUSTAINABLE development, *EMERGENCY management, *NATURAL disasters

Abstract

Human emissions of greenhouse gases are already changing our climate. This paper provides an overview of the relation between climate change and weather extremes, and examines three specific cases where recent acute events have stimulated debate on the potential role of climate change: the European heatwave of 2003; the risk of inland flooding, such as recently in Central Europe and Great Britain; and the harsh Atlantic hurricane seasons of 2004 and 2005. Furthermore, it briefly assesses the relation between climate change and El Niño, and the potential of abrupt climate change. Several trends in weather extremes are sufficiently clear to inform risk reduction efforts. In many instances, however, the potential increases in extreme events due to climate change come on top of alarming rises in vulnerability. Hence, the additional risks due to climate change should not be analysed or treated in isolation, but instead integrated into broader efforts to reduce the risk of natural disasters. [ABSTRACT FROM AUTHOR]

Published

2006

44. Changes in the Range of Some Common Rocky Shore Species in Britain – A Response to Climate Change?

Author

Mieszkowska, N., Kendall, M. A., Hawkins, S. J., Leaper, R., Williamson, P., Hardman-Mountford, N. J., and Southward, A. J.

Subjects

*GLOBAL warming, *CLIMATE change, *INTERTIDAL ecology, *SEASHORE ecology, *ACCLIMATIZATION, *BIOLOGICAL adaptation, *HEAT adaptation

Abstract

Since the 1990s there has been a period of rapid climate warming in Europe. Long-term broad scale datasets coupled with time series at specific locations for rocky intertidal species dating back to the 1950s have been collected in Britain and Ireland. Resurveys of the original locations in 2001–2003 have been undertaken to identify changes in the biogeographical range and abundance of these species. The results show that some ‘southern’ species including Osilinus lineatus da Costa and Gibbula umbilicalis da Costa have undergone north and north-eastern range extensions. Populations have increased in abundance and adult size has decreased since the previous surveys were conducted. These changes have been synchronous throughout Britain, strongly suggesting that climate is responsible. The use of intertidal species as indicators of climate change is proposed. [ABSTRACT FROM AUTHOR]

Published

2006

45. Possible economic impacts of a shutdown of the thermohaline circulation: an application of FUND.

Author

Link, P. Michael and Tol, Richard S. J.

Subjects

CLIMATE change, CLIMATOLOGY, ACCLIMATIZATION, SOCIAL impact, GLOBAL temperature changes

Abstract

Climate change can lead to a substantial reduction of the strength of the thermohaline circulation in the world oceans. This is often thought to have severe consequences particularly on the North Atlantic region and Northern and Western Europe. The integrated assessment model FUND is used to estimate the extent of these impacts. The results indicate that, owing to a slower warming (rather than cooling) of the regions most affected by a thermohaline circulation collapse, climate change induced damages in these regions would be smaller in case of a shutdown of the thermohaline circulation. However, even with a thermohaline circulation collapse, the total and marginal impacts of climate change are negative. [ABSTRACT FROM AUTHOR]

Published

2004

46. Impacts of in-stream acclimatization in post-stocking behaviour of European grayling in a Swedish stream.

Author

THORFVE, STEFAN

Subjects

*ACCLIMATIZATION, *THYMALLUS, *FISH stocking

Abstract

Abstract The post-stocking behaviour of hatchery-reared juvenile European grayling, Thymallus thymallus (L.), with in-stream acclimatization in a pool for 4, 8, and 12 days before release was compared with fish released directly into a 370-m long seminatural stream during 1995 and 1996. The behaviour of these groups was compared with fish acclimatized for 16 h in a holding pen (0.7 m 3 ) in a more fast-flowing part of the stream. All fish were released in the experimental stream at the same time. Initially groups of 30 individuals were compared, but this was reduced because of the mortality during acclimatization. Temporal and spatial distribution, feed intake in relation to sex and size of fish were followed for 7 days after release. Between 33 and 59% of all groups of fish released into the pool left the experimental area and were recaptured in a trap at the downstream end of the experimental stream. The acclimatization period had no significant influence on the percentage of fish moving downstream. Significantly more grayling left the stream from the holding pen (76.7%) than fish released in the pool (47.2%). Of the recaptured fish, 77% had been feeding. Fish recaptured within a week had lost more than 10% of their initial weight measured at the hatchery. Fish recaptured more than 2 weeks after release had lost a significantly smaller percentage of their initial weight compared with fish recaptured in the first 2 weeks. No differences were found in spatial distribution or feeding activity between sexes. [ABSTRACT FROM AUTHOR]

Published

2002

47. Constructing a new understanding of the environment under postsocialism.

Author

Herrschel, Tassilo and Forsyth, Timothy

Subjects

*ENVIRONMENTALISM, *ACCLIMATIZATION

Abstract

Introduces a series of studies on environment and postsocialism in Europe. Market triumphalism and global environmentalism in 1990; Postsocialism and the environment in 2000; Factor to which the understanding of the environment under postsocialism depends.

Published

2001

48. Variability in climate-growth reaction of Robinia pseudoacacia in Eastern Europe indicates potential for acclimatisation to future climate.

Author

Klisz, Marcin, Puchałka, Radosław, Netsvetov, Maksym, Prokopuk, Yulia, Vítková, Michaela, Sádlo, Jiří, Matisons, Roberts, Mionskowski, Marcin, Chakraborty, Debojyoti, Olszewski, Piotr, Wojda, Tomasz, and Koprowski, Marcin

Subjects

BLACK locust, ACCLIMATIZATION, CLIMATE sensitivity, SUSTAINABLE forestry, SPECIES distribution, INTRODUCED species

Abstract

[Display omitted] • Four bioclimatic clusters determine black locust distribution in Europe. • The eastern cluster overlaps with climatically suitable area in current and future distribution. • The black locust highlighted spatially and temporally variable climate sensitivity. • The plasticity in secondary growth may increase the black locust's invasive potential. As a consequence of native tree species decline and distribution range contraction in Europe, acclimation of the non-native tree species at the edge of their distribution is gaining importance. Although non-native tree species may provide sustainable ecosystem services, as a potentially invasive species they may be a threat to local ecosystems as well. In Europe, black locust (Robinia pseudoacacia) a non-native species, seems to meet the condition of acclimation as a multi-generational process. The acclimatization, however, may have consequences not only for growth performance but also for the species' invasive potential. This study investigates the spatiotemporal pattern of secondary growth and climate sensitivity among six black locust stands along continentality gradient in Eastern Europe with the respect to bioclimatic conditions of the species distribution in Europe. Despite comparable bioclimatic conditions, climate sensitivity of black locust stands is highly variable, both temporally and spatially. The winter and spring temperatures are a key climatic driver of the growth pattern in southern and western Poland. Growth response to previous winter and current summer precipitation distinguished stands in western and eastern Poland. A significant increase in the mean annual temperature during the last 70 years likely triggered temporal instability of the black locusts' climate signal. In general, drought conditions were found to be the main limiting factor at the edge sites within the black locust gradient. Thus, the climate sensitivity of black locust stands reflects rather site-specific microclimatic conditions then bioclimatically-based clustering pattern. Despite climate-related limiting factors, black locust seems to be characterized by high potential for acclimatization to Eastern European climatic conditions, suggesting high invasive potential. Thus, the replacement of native species by black locust or the conversion of local habitats into monocultures for biomass production should not be recommended, while species management should follow proactive measures to reduce the risk of uncontrolled spread of the species. Divergent growth reaction of black locust stands implies high plasticity of secondary growth and thus high probability of acclimatization to future climate. Given the expected range expansion to the East in Europe, we call for expanding dendroclimatic studies to the areas of future species expansion in order to test its climatic and edaphic limitations. This seems to be crucial for formulating non-native species management strategies in line with sustainable forestry, preventing the uncontrolled expansion of the species that threatens vulnerable habitats. [ABSTRACT FROM AUTHOR]

Published

2021

49. CLIMATES OF OPINION: ACCLIMATIZATION IN NINETEENTH-CENTURY FRANCE AND ENGLAND.

Author

Anderson, Warwick

Subjects

*ACCLIMATIZATION, *NINETEENTH century

Abstract

Focuses on the acclimatization in 19th century France and England. Significance of acclimatization to scientists; Indication of the development of the vocabulary of acclimization during this period; Significance of the interventionist theory of acclimatization.

Published

1992

50. Climate risk to European fisheries and coastal communities.

Author

Payne MR, Kudahl M, Engelhard GH, Peck MA, and Pinnegar JK

Subjects

Acclimatization, Ecosystem, Europe, Risk Assessment, Climate Change, Fisheries

Abstract

With the majority of the global human population living in coastal regions, correctly characterizing the climate risk that ocean-dependent communities and businesses are exposed to is key to prioritizing the finite resources available to support adaptation. We apply a climate risk analysis across the European fisheries sector to identify the most at-risk fishing fleets and coastal regions and then link the two analyses together. We employ an approach combining biological traits with physiological metrics to differentiate climate hazards between 556 populations of fish and use these to assess the relative climate risk for 380 fishing fleets and 105 coastal regions in Europe. Countries in southeast Europe as well as the United Kingdom have the highest risks to both fishing fleets and coastal regions overall, while in other countries, the risk-profile is greater at either the fleet level or at the regional level. European fisheries face a diversity of challenges posed by climate change; climate adaptation, therefore, needs to be tailored to each country, region, and fleet's specific situation. Our analysis supports this process by highlighting where and what adaptation measures might be needed and informing where policy and business responses could have the greatest impact., Competing Interests: The authors declare no competing interest.

Published

2021