Academic literature on the topic 'Adaptation changement climatique'
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Journal articles on the topic "Adaptation changement climatique"
Godard, Olivier. "Dossier « Adaptation aux changements climatiques » – Cette ambiguë adaptation au changement climatique." Natures Sciences Sociétés 18, no. 3 (July 2010): 287–97. http://dx.doi.org/10.1051/nss/2010036.
Full textIdrissou, Yaya, Alassan Assani Seidou, Fréjus Mahougnon Tossou, Hilaire Sorébou Sanni Worogo, Mohamed Nasser Baco, Josias Steve Adjassin, Brice Gérard Comlan Assogba, and Ibrahim Alkoiret Traore. "Perception du changement climatique par les éleveurs de bovins des zones tropicales sèche et subhumide du Bénin : comparaison avec les données météorologiques." Cahiers Agricultures 29 (2020): 1. http://dx.doi.org/10.1051/cagri/2019032.
Full textKremer, Antoine. "Évolution biologique des arbres et évolution climatique." Futuribles N° 461, no. 4 (June 12, 2024): 23–40. http://dx.doi.org/10.3917/futur.461.0023.
Full textJuvanon du Vachat, R. "Libres propos sur l’adaptation au changement climatique." Pollution atmosphérique, NS 6 (June 1, 2013): 86–95. http://dx.doi.org/10.54563/pollution-atmospherique.7634.
Full textIyiola-Tunji, A. O. "Climate-smart livestock production: options for Nigerian farmers." Nigerian Journal of Animal Production 48, no. 4 (March 8, 2021): 136–48. http://dx.doi.org/10.51791/njap.v48i4.3005.
Full textBeauvais, François. "Approches géographiques et agroclimatologiques des conséquences du changement climatique sur l’agrosystème céréalier de la Plaine de Caen (Normandie) aux horizons 2050 et 2100 : analyse comparative des résultats tirés des indicateurs agroclimatiques et phénoclimatiques." Climatologie 19 (2022): 3. http://dx.doi.org/10.1051/climat/202219003.
Full textLe Bars, Yves. "Dossier « Adaptation aux changements climatiques » – Le changement climatique peut-il être utile au développement ?" Natures Sciences Sociétés 18, no. 3 (July 2010): 317–21. http://dx.doi.org/10.1051/nss/2010039.
Full textMagnan, Alexandre. "Dossier « Adaptation aux changements climatiques » – Questions de recherche autour de l’adaptation au changement climatique." Natures Sciences Sociétés 18, no. 3 (July 2010): 329–33. http://dx.doi.org/10.1051/nss/2010041.
Full textNeglo, Asseye. "intégration des mesures d’adaptation au changement climatique dans la planification du développement durable au Togo." Revue Organisations & territoires 32, no. 3 (January 15, 2024): 210–21. http://dx.doi.org/10.1522/revueot.v32n3.1686.
Full textISANGU MWANA M’FUMU, Augustin, Moise KALAMBAIE BIN MUKANYA, and Jean Pierre USOTILA WATA NGO IBEYA. "Stratégies d’adaptation des maraîchers face aux changements climatiques en République Démocratique du Congo. Cas des vallées de Kimwenza et Lukaya dans la Commune de Mont-Ngafula, Ville Province de Kinshasa." Revue Congo Research Papers 4, no. 2 (July 10, 2023): 73–111. http://dx.doi.org/10.59937/hxrc3041.
Full textDissertations / Theses on the topic "Adaptation changement climatique"
Henriet, Fanny. "Essais sur l'économie du changement climatique." Paris, EHESS, 2012. http://www.theses.fr/2012EHES0025.
Full textThis thesis focuses on several issues related to climate policies. The first chapter focuses on the optimal extraction of a polluting non-renewable resource when there is an environmental regulation and when a clean technology can be developed through research and development. The second chapter examines the introduction of a carbon capture and storage technology. When all emissions can not be captured, because of technical constraints, this technology should be used before any environmental damages occurs. The third chapter examines the optimal tax system changes when an externality is discovered in a model à la Mirlees with heterogeneous agents. If productivity and the cost of access to a clean substitute are negatively correlated, there should be no indirect taxes, in the absence of externalities. With externality, it is optimal to tax the dirty good, less than the Pigovian rate, and the clean good. In the fourth chapter, we build, calibrate and simulate a stylized model designed to assess the magnitude of the carbon tax that would allow the French economy to divide by four its CO2 emissions in forty years. The magnitude of the carbon tax required is quite unrealistic. The fifth chapter discusses the ecological discount rate that should be used to assess projects aiming at improving the environment. We study the properties of the standard discount rate and the ecological discount rate. We also discuss a version of the precautionary principle
Locatelli, Bruno. "Services écosystémiques et changement climatique." Habilitation à diriger des recherches, Université de Grenoble, 2013. http://tel.archives-ouvertes.fr/tel-00931871.
Full textViguié, Vincent. "Modélisation des dynamiques urbaines : application à l’analyse économique du changement climatique." Thesis, Paris Est, 2012. http://www.theses.fr/2012PEST1049/document.
Full textBecause they are home to more than half of the world population, and because most of the world economic activity takes place within them, cities are at the forefront of global environmental issues. Land use planning, urban transport and housing policies are now recognized as major tools for the reduction of both greenhouse gases emissions and vulnerability to climate change impacts. So far, however, how to use these tools efficiently remains unclear. At least three main difficulties explain this, and play a key role in urban climate policies analysis. First, urban climate policies are also not developed or implemented in a vacuum; they interact with other policy goals, such as economic competitiveness or social issues, giving rise to both synergies and conflicts. Second, inertia is a key factor when designing optimal climate policies : structural modifications in cities occur slowly over a long time horizon. Some immediate actions are required if cities are to be adapted to a different climate or to help reduce greenhouse gases emissions within a few decades. Third, the evolution of a city depends on several external factors, on which local policy-makers do not generally have much influence : demographic, socio-economic, cultural, political and technological changes will play a major role. This uncertainty has to be taken into account, and climate policies have to be robust against future possible global evolutions is important. These three difficulties are not, however, impossible to overcome, and we will illustrate how integrated city modelling can help address these issues
Chavaillaz, Yann. "La vitesse du changement climatique et ses implications sur la perception des générations futures." Electronic Thesis or Diss., Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLV021.
Full textIn most climate studies, climate change is approached by focusing on the evolution between a fixed current baseline and a future period, emphasizing stronger warming as we move further over the 21st century. Under climate conditions that are continuously evolving, human and natural systems might have to constantly adapt to a changing climate. This thesis proposes an alternative approach to climate projections. Here, I consider and analyze indicators of the pace of changes relative to temperature, precipitation and vegetation in order to be relevant for both urban and rural populations. An ensemble of CMIP5 simulations from 18 climate models is selected. The pace is represented by differences between two subsequent 20-year periods. Considering the pace of change would be beneficial for climate impacts and adaptation analyses.The models predict that the warming rate strongly increases without any mitigation policies (RCP8.5 scenario). It is twice as high by the end of the century compared to the current period, and even three times higher in some regions. Significant shifts in temperature distributions between two subsequent 20-year periods are projected to involve almost half of all land surfaces and most tropical areas by 2060 onwards (i.e. at least four times as many regions than currently). In these regions, an extremely warm year with a return period of about 50 years would become quite common only 20 years later. The fraction of the world population exposed to such shifts might reach about 60% (6 billion people, i.e. seven times more than currently). Low mitigation measures (RCP6.0) allow the warming rate to be kept at current values, and reduce the fraction of the world population exposed to significant shifts of temperature distributions by one third.Under RCP8.5, rainfall moistening and drying rates both increase by 30-40% above current levels. As we move further over the century, their patterns become geographically stationary and the trends become persistent. The stabilization of the geographical rate patterns that occurs despite the acceleration of global warming can be physically explained: it results from the increasing contribution of thermodynamic processes compared to dynamic processes in the control of precipitation change. The combination of intensification and increasing persistence of precipitation rate patterns may affect the way human societies and ecosystems adapt to climate change, especially in the Mediterranean basin, Central America, South Asia and the Arctic. Such an evolution in precipitation has already become noticeable over the last few decades, but it could be reversed if strong mitigation policies were quickly implemented (RCP2.6).Changes in vegetation could be visual landmarks of climate change. In mid- and high-latitudes of the Northern Hemisphere, the phenology of grass and trees follows the warming rate. Without any mitigation policies, the start of spring occurs earlier, and its duration is extended faster as we move over the century. The vegetation cover becomes denser, regardless of the selected pathway, in proportion to the temperature rise. The seasonal cycle of mid-latitude crops also depends on the temperature, and the seasonal cycle of tropical crops directly follows the features of the wet season. In all other latitudes, no robust evolution of the seasonal cycle is projected. The pace of change of vegetation cover since 1880 already doubled before 1950, mainly due to a strong change in land use. This pace is then projected to be stable over the entire 21st century if the vegetation dynamically interacts with the climate system in the models. This corresponds to a reduction of land-use change and to the acceleration of changes of vegetation cover under climate change
Quefelec, Stephane. "Les effets du changement climatique sur les pays méditerranéens." Thesis, Aix-Marseille 2, 2011. http://www.theses.fr/2011AIX24010.
Full textThis thesis studies the links between development and climate change in Mediterranean countries to better understand the processes and interactions in specific games in the region, particularly in the Maghreb and the Mashreq. In Chapter 1, we review the state of scientific knowledge on climate change at global level and at Mediterranean level. This allows us to address the problem of climate projections and analyze the results for the Mediterranean. On this basis, in Chapter 2, by comparing the projections of climate change and the local context of development, we highlight a relatively higher vulnerability of the developing Mediterranean countries. We discuss in Chapter 3, methods and tools to estimate the economic cost of climate change and deduce lessons for the Mediterranean countries. To go further in the characterization and understanding of the mechanisms at play in the Mediterranean, we propose, in Chapter 4, econometric approaches using long term panel data. We test the impact of climate variables on, first, the level of GDP per capita and, second, on cereal yields. The results show that even rich Mediterranean countries are sensitive to climate change - at least over the period 1950-2000 - although much less than Southern and Eastern developing countries of the Mediterranean basin. Furthermore, we confirm that agriculture is a major channel of climate change impact in the economy, particularly in developing countries. The issue of water appears in a key parameter in adaptation to climate change. Thus, in Chapter 5, we analyze the state of water resources, the existing modes of governance and adaptation options available to Mediterranean arid countries. We present a simulation of future demands by sector in North Africa, enabling us to obtain orders of magnitude of the expected benefits of different policy options that can be followed by the government. We show that water demand management is one of the key tools to adapt to climate change in Mediterranean countries and that its implementation depends primarily on governance reforms
Garcia, Pierre-Olivier. "Sous l'adaptation, l'immunité : étude sur le discours de l'adaptation au changement climatique." Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAH025/document.
Full textClimate Change Adaptation (CCA) is a category of thought and action. It clusters every practice that seeks to deal and cope with the territorial consequences of climate change. It is proposed in this work to study the discourse of adaptation to CC and to provide immunity as an alternative approach.The first part of this study investigates how this discourse -here defined as the whole set of statements concerning CCA- is set into a specific order. Because of its heterogeneity, this discourse may initially be characterised as opaque. Yet, the study of its evolution along the one of the scientific journal Global Environmental Change, highlights the emergence, over the 2000’s, of the resilience paradigm. This very paradigm reconfigures and sets the CCA discourse into a specific order. From then on, adaptation is no longer understood as the meer adjustment to external climatic stimuli, but as the social group own adaptativity, defined as the capacity to let itself be restructured by any internal or external change.The second part of this study argues in favour of considering immunity as a tacit but nevertheless highly structuring notion within the CCA discourse and within geography and planning theory. Immunity is first approached theoretically by exploring the philosophical anthropology of P. Sloterdijk, that he happened to name general immunology. In order to transfer immunity into geography and planning theory, the sloterdijkian theoretical tools are then discussed and built on with other approaches, including F. Neyrat’s and R. Esposito’s work. Eventually, studying the case of the Netherlands reveals how immunity is at the heart of the order of some specific milieu. Indeed, this country is a paradigmatic case of a planning tradition that immunises society from its geographical milieu and an example of the implementation of CCA public policy.This thesis puts into perspective two contradictory main principles of the contemporary ordering of the milieus: absolute immunity and adaptativity. It shows how CCA resolves this contradiction in a very specific way
Neethling, Etienne. "Adaptation de la viticulture au changement climatique : vers des stratégies à haute résolution." Thesis, Rennes 2, 2016. http://www.theses.fr/2016REN20045/document.
Full textAdaptation to climate change is a major challenge facing the viticulture sector. Within an appropriate temporal and spatial framework, the aim of this thesis was to enhance the conception of climate change adaptation in viticulture, all towards constructing high resolution strategies. The methodological framework used in this study consisted of several steps. Using a regional climate model, the first step was to evaluate the potential impacts of future climate changes on grape growing in the Anjou-Saumur wine growing sub-region. With warming predicted to continue by +1.1°C to +3.8°C in the far future, grapevine phenology is expected to advance significantly. Secondly, two contrasting study areas in Anjou-Saumur were equipped with climatic and agronomic measurements at vineyard-level scales. For three consecutive growing seasons, local variability in climate- and grapevine-related variables were studied. Results have shown a strong spatial variability in local climate conditions, which were reflected on grape phenology and grape composition. This spatial heterogeneity in local conditions should represent an important buffer in response to future climate changes, allowing winegrowers to manage the expected climate change impacts. And finally, wine growers’ perceptions, vulnerability and adaptive processes to climate variability and change were assessed through individual semi-structured interviews. Within the context of climate change and the key issues surrounding adaptation, this thesis have highlighted the importance of local environmental knowledge and contextual understanding in framing adaptation strategies across different temporal and spatial scales
Chavaillaz, Yann. "La vitesse du changement climatique et ses implications sur la perception des générations futures." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLV021/document.
Full textIn most climate studies, climate change is approached by focusing on the evolution between a fixed current baseline and a future period, emphasizing stronger warming as we move further over the 21st century. Under climate conditions that are continuously evolving, human and natural systems might have to constantly adapt to a changing climate. This thesis proposes an alternative approach to climate projections. Here, I consider and analyze indicators of the pace of changes relative to temperature, precipitation and vegetation in order to be relevant for both urban and rural populations. An ensemble of CMIP5 simulations from 18 climate models is selected. The pace is represented by differences between two subsequent 20-year periods. Considering the pace of change would be beneficial for climate impacts and adaptation analyses.The models predict that the warming rate strongly increases without any mitigation policies (RCP8.5 scenario). It is twice as high by the end of the century compared to the current period, and even three times higher in some regions. Significant shifts in temperature distributions between two subsequent 20-year periods are projected to involve almost half of all land surfaces and most tropical areas by 2060 onwards (i.e. at least four times as many regions than currently). In these regions, an extremely warm year with a return period of about 50 years would become quite common only 20 years later. The fraction of the world population exposed to such shifts might reach about 60% (6 billion people, i.e. seven times more than currently). Low mitigation measures (RCP6.0) allow the warming rate to be kept at current values, and reduce the fraction of the world population exposed to significant shifts of temperature distributions by one third.Under RCP8.5, rainfall moistening and drying rates both increase by 30-40% above current levels. As we move further over the century, their patterns become geographically stationary and the trends become persistent. The stabilization of the geographical rate patterns that occurs despite the acceleration of global warming can be physically explained: it results from the increasing contribution of thermodynamic processes compared to dynamic processes in the control of precipitation change. The combination of intensification and increasing persistence of precipitation rate patterns may affect the way human societies and ecosystems adapt to climate change, especially in the Mediterranean basin, Central America, South Asia and the Arctic. Such an evolution in precipitation has already become noticeable over the last few decades, but it could be reversed if strong mitigation policies were quickly implemented (RCP2.6).Changes in vegetation could be visual landmarks of climate change. In mid- and high-latitudes of the Northern Hemisphere, the phenology of grass and trees follows the warming rate. Without any mitigation policies, the start of spring occurs earlier, and its duration is extended faster as we move over the century. The vegetation cover becomes denser, regardless of the selected pathway, in proportion to the temperature rise. The seasonal cycle of mid-latitude crops also depends on the temperature, and the seasonal cycle of tropical crops directly follows the features of the wet season. In all other latitudes, no robust evolution of the seasonal cycle is projected. The pace of change of vegetation cover since 1880 already doubled before 1950, mainly due to a strong change in land use. This pace is then projected to be stable over the entire 21st century if the vegetation dynamically interacts with the climate system in the models. This corresponds to a reduction of land-use change and to the acceleration of changes of vegetation cover under climate change
Soutif-Bellenger, Myriam. "Eau, agriculture, changement climatique : apports d'une modélisation intégrée agro-hydrologique pour l'adaptation." Electronic Thesis or Diss., Sorbonne université, 2023. http://www.theses.fr/2023SORUS469.
Full textAgriculture requires water to meet the biological needs of crops. When the water supplied to the soil by precipitation is not sufficient, additional water can be taken out from bodies of water and supplied to crops : this is irrigation. With the intensification of the risk of drought, agricultural territories are particularly affected by climate change. It is therefore necessary today to develop and evaluate adaptation strategies. To do this, we must take into account the evolution of irrigation water demand in future hydrological projections. Given the multiplicity of challenges related to climate change adaptation and agriculture, it is also important to implement integrated approaches and taking into account uncertainties. Furthermore, it is necessary to formulate concrete strategies, which must be defined at a sufficiently local scale. Explicit modeling of agro-hydrosystems already exists. However, these models are often complex, and require a large amount of data and simulate numerous processes. In contrast, there are conceptual hydrological models that are parsimonious, efficient, and operational but usually do not explicitly account for uses. The objective of this thesis has therefore focused on developing a framework of intermediate complexity. Firstly, a model was developed, integrating i) the modeling of hydrology using the conceptual hydrological semi-distributed daily GR5J model, ii) the modeling of irrigation water withdrawals using the daily agronomic model CropWat, and iii) modeling of storage structures and their management, such as reservoirs and dams. This modeling was first implemented on the downstream Aveyron watershed. The irrigation simulations obtained were compared with simulations from the MAELIA platform, an explicit agro-hydrological integrated model that has been the subject of numerous developments and surveys in this area. The model was also implemented in the Seille catchment, a tributary of the Moselle, on which there is no irrigation but which is currently experiencing new difficulties related to droughts. In a second phase, the developed model was applied in a prospective exercise that examined different scenarios for local agricultural and water management evolution in the Seille watershed. Interviews with local water and agriculture stakeholders were carried out to produce three plausible evolution scenarios for the Seille watershed by 2050, implemented in the model. The work carried out in this thesis confirmed the interest and necessity of integrating irrigation water withdrawals into conceptual hydrological modeling to evaluate local agricultural scenarios in the context of climate change. Thus, our work highlightedthe impacts of human influences on watershed hydrology, and the sensitivity of the model to different agricultural and water management scenarios. Our research also emphasized the need to use various indicators, both hydrological and related to water demand satisfaction, to evaluate the impacts of climate change. Nevertheless, this study revealed that in the studied area (the Seille catchment), considering future scenarios, the predominance of uncertainty related to climate projections on future low-flow periods outweighed the uncertainty linked to changes in irrigation water demand. Some projections thus lead to significant difficulties for non-irrigated spring crops, in particular maize. Finally, a parsimonious and easily reusable modeling framework was developed, which can be applied in other regions
Amat, Amandine. "Le changement climatique de la simulation aux modes d'existence : étude de trajectoires climatiques de villes et d'entreprises en Alsace." Thesis, Strasbourg, 2016. http://www.theses.fr/2016STRAG023/document.
Full textThis thesis focuses on the ultimatum imposed by the climate change phenomenon in contemporary Western society : changing the model of society or risk collapse (Diamonds, 2006). The major ordealt hat is required was that of otherwise inhabit the Earth around another project : the fight against climate change. Many publications (Aykut, 2012 ; Dahan, 2015 ; Latour, 2015 ; Roques, 2013 ;Stengers, 2009) describe the inability of state institutions to build a common project to respond to climate challenges. In this situation, the "critical" studies note the important place that has taken the simulation at the expense of concrete and sustainable action. Climate modelling, political and economic simulations, sociological diagnoses, literary fiction, climate change is largely invested by the narrative. Our field immersions have shown that other scales of action are already actively seized ofthe climate deal. Cities and businesses are in fact more likely to take a position in the energy and climate challenge. It follows that some statements, by their position mediators had given way to concrete experiments. Taking a pragmatic approach, inspired by the l’Enquête sur les modes d’existence proposed by Latour, and enriched by the model of Économies de la Grandeur of Boltanski and Thevenot, this thesis attempts to describe the various modes of existence of the climate problem from territorial collectives. We also assuming the rear of influence cultural plans and attachments in producing climate strategies by local actors
Books on the topic "Adaptation changement climatique"
Germany. Bundesministerium für Wirtschaftliche Zusammenarbeit und Entwicklung, ed. Afrique suprarégionale: Adaptation au changement climatique du bassin du lac Tchad : étude sur le changement climatique. Bonn: GIZ, Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH, 2015.
Find full textministre, France Premier, and France Parlement (1946 ), eds. Villes et adaptation au changement climatique: Rapport au Premier ministre et au Parlement. Paris: La Documentation française, 2010.
Find full textHenry, Schneider Stephen, ed. Preparing for climate change. Cambridge, Mass: MIT Press, 2010.
Find full textNicola, Mayer, Koshida Grace, Avis Wendy, Canada. Environmental Adaptation Research Group., and Canada Environment Canada, eds. The Canada country study, climate impacts and adaptation.: L'étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique. Questions sectorielles. Toronto: Environment Canada, 1998.
Find full textCanada, Canada Environment, ed. Canada country study, climate impacts and adaptation.: L'étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique. Tomes I à VI, Tomes régionaux. [Downsview, Ont.]: Environment Canada = Environnement Canada, 1998.
Find full textLavender, Beth. The Canada Country Study : Climate Impacts and Adaptation : Ontario summary =: L'Étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique : sommaire de l'Ontario. Ottawa, Ont: Environment Canada = Environnement Canada, 1997.
Find full textCanada, Canada Environment. The Canada Country Study : Climate Impacts and Adaptation : British Columbia & Yukon summary =: L'étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique : sommaire de la Colombie-Britannique et du Yukon. Ottawa, Ont: Environment Canada = Environnement Canada, 1997.
Find full textCanada, Canada Environment. The Canada Country Study : Climate Impacts and Adaptation : highlights for Canadians =: L'Étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique : points saillants pour les canadiens. Ottawa, Ont: Environment Canada = Environnement Canada, 1997.
Find full textCanada, Canada Environnement, ed. The Canada Country Study : Climate Impacts and Adaptation : Atlantic Canada summary =: L'étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique : sommaire des provinces de l'Atlantique. Ottawa, Ont: Environment Canada = Environnement Canada, 1997.
Find full textCanada, Canada Environment. The Canada Country Study : Climate Impacts and Adaptation : national summary for policy makers =: L'Étude pan-canadienne sur les impacts et l'adaptation à la variabilité et au changement climatique : sommaire national pour les décideurs. Edited by Street R. B, Maxwell Barrie, Mayer Nicola, and Canada Environnement Canada. Ottawa, Ont: Environment Canada = Environnement Canada, 1997.
Find full textBook chapters on the topic "Adaptation changement climatique"
"Chapitre 18. Adaptation et résilience des populations au Sud." In Changement climatique, 233–43. IRD Éditions, 2015. http://dx.doi.org/10.4000/books.irdeditions.29456.
Full textLutoff, Céline, Marie Arthuis, and Sandrine Anquetin. "Adaptation au changement climatique : se mettre en action !" In Adaptation au changement climatique : se mettre en action !, 1–9. Presses universitaires de Grenoble, 2022. http://dx.doi.org/10.3917/pug.lutof.2021.01.0001.
Full textBlanc, Nathalie, and Lydie Laigle. "Chapitre 13. Récits urbains et adaptation au changement climatique." In De la ville durable à la nature en ville, 255–72. Presses universitaires du Septentrion, 2015. http://dx.doi.org/10.4000/books.septentrion.19268.
Full text"Adaptation des hydrosystèmesau changement climatique dans les pays de l'OCDE." In Études de l'OCDE sur l'eau, 53–83. OECD, 2014. http://dx.doi.org/10.1787/9789264200647-7-fr.
Full text"Adaptation au changement climatique et aléas naturels liés au climat." In Examens environnementaux de l'OCDE, 153–78. OECD, 2014. http://dx.doi.org/10.1787/9789264202948-9-fr.
Full textCoppens, Yves. "Un bouquet d’ancêtres." In Un bouquet d’ancêtres, 153–59. CNRS Éditions, 2021. https://doi.org/10.3917/cnrs.coppe.2021.01.0153.
Full text"Adaptation au changement climatique et atténuation de ses effets: le rôle des politiques commerciales." In La situation des marchés des produits agricoles 2018, 67–80. UN, 2018. http://dx.doi.org/10.18356/93cb6732-fr.
Full text"Atténuation du changement climatique et adaptation à ses effets: politiques et mesures de soutien internes." In La situation des marchés des produits agricoles 2018, 47–66. UN, 2018. http://dx.doi.org/10.18356/32cf91c7-fr.
Full text"Adaptation et atténuation au changement climatique dans le domaine de la gestion de l'eau agricole." In Études de l'OCDE sur l'eau, 47–85. OECD, 2015. http://dx.doi.org/10.1787/9789264235076-4-fr.
Full textLECLERCQ, Julie, Dominique THIS, and Patrice THIS. "Épigénétique et amélioration des plantes cultivées." In Épigénétique en écologie et évolution, 241–67. ISTE Group, 2024. https://doi.org/10.51926/iste.9216.ch9.
Full textReports on the topic "Adaptation changement climatique"
CIFOR. Forêts et adaptation au changement climatique: ce que les décideurs politiques devraient savoir. Center for International Forestry Research (CIFOR), 2013. http://dx.doi.org/10.17528/cifor/004159.
Full textLemmen, D. S., and F. J. Warren. Impacts et adaptation liés aux changements climatiques : perspective canadienne. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2004. http://dx.doi.org/10.4095/226468.
Full textCIFOR. La Gestion collaborative adaptative peut nous aider à faire face au changement climatique. Center for International Forestry Research (CIFOR), 2008. http://dx.doi.org/10.17528/cifor/002635.
Full textE., Pramova, Locatelli B., Djoudi H., and Somorin O.A. Le rôle des forêts et des arbres dans ladaptation sociale à la variabilité et au changement climatiques. Center for International Forestry Research (CIFOR), 2012. http://dx.doi.org/10.17528/cifor/004023.
Full textRousseau, Henri-Paul. Gutenberg, L’université et le défi numérique. CIRANO, December 2022. http://dx.doi.org/10.54932/wodt6646.
Full text