Vineyards and Vineyard Management Related to Ecosystem Services: Experiences from a Wide Range of Enological Regions in the Context of Global Climate Change

This special symposium focuses on the analysis of climate change impacts on the spatial dimension of vineyard land use. This includes the analysis of projections of current vineyard areas that are lost due to climate change, those that are retained despite climate change, and new vineyard areas that are created due to climate change. The analysis explores the use of GIS over regional and global scales. Furthermore, this symposium sheds light on the socioeconomic dimension of climate change impacts on the wine industry and viticulture by exploring the use of an ecosystem service approach. Such an economic sector is responsible for the provision of a wide range of cobenefits in addition to wine products. These include biodiversity protection and cultural services, including landscape values and ecotourism benefits (see Nunes and Loureiro, forthcoming). In this context, this symposium endorses the ecosystem service approach to the management of vineyards as a regional strategic plan to promote sustainable development. This embraces a broad range of issues including (1) the improvement of people's quality of life; (2) the increase of prospects for more jobs in rural areas; and (3) the protection of regional commons, including both biodiversity and cultural heritage–oriented commons.

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Wine, Place, and Identity in a Changing Climate

Gastronomica The Journal of Food and Culture ◽

10.1525/gfc.2003.3.2.87 ◽

2003 ◽

Vol 3 (2) ◽

pp. 87-93 ◽

Cited By ~ 9

Author(s):

Robert Pincus

Keyword(s):

Climate Change ◽

Global Climate Change ◽

Global Climate ◽

Wine Industry ◽

Local Climate ◽

Changing Climate ◽

Legal Structure ◽

Wide Range ◽

Place And Identity

The traditional connections between wine and location reflect local climate. Climate change threatens these connections, and vintners have a wide range of responses to this impending problem. This article explores the source of the associations between wines and locales, and outlines the causes for global climate change. Three wine makers describe how they might adapt to a changed climate. Their responses run the gamut from adaptation in the vineyard aimed at maintaining current styles, to radical reinvention of the societal and legal structure of the local wine industry.

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Climate Change Impacts and Adaptations: New Challenges for the Wine Industry

Journal of Wine Economics ◽

10.1017/jwe.2016.3 ◽

2016 ◽

Vol 11 (1) ◽

pp. 139-149 ◽

Cited By ~ 20

Author(s):

Nathalie Ollat ◽

Jean-Marc Touzard ◽

Cornelis van Leeuwen

Keyword(s):

Climate Change ◽

Climate Change Impacts ◽

Climatic Conditions ◽

Wine Industry ◽

Adaptation To Climate Change ◽

Wine Quality ◽

Wine Production ◽

Wine Making ◽

Wide Range ◽

The Impact

AbstractClimate change will have a profound effect on vine growing worldwide. Wine quality will also be affected, which will raise economic issues. Possible adaptations may result from changes in plant material, viticultural techniques, and the wine-making process. Relocation of vineyards to cooler areas and increased irrigation are other options, but they may result in potential conflicts for land and water use. Grapes are currently grown in many regions around the world, and growers have adapted their practices to the wide range of climatic conditions that can be found among or inside these areas. This knowledge is precious for identifying potential adaptations to climate change. Because climate change affects all activities linked to wine production (grape growing, wine making, wine economics, and environmental issues), multidisciplinary research is needed to guide growers to continue to produce high-quality wines in an economical and environmentally sustainable way. An example of such an interdisciplinary study is the French LACCAVE (long-term adaptation to climate change in viticulture and enology) project, in which researchers from 23 institutes work together on all issues related to the impact of climate change on wine production. (JEL Classifications: Q1, Q5)

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Chicago’s Heat Island and Climate Change: Bridging the Scales via Dynamical Downscaling

Journal of Applied Meteorology and Climatology ◽

10.1175/jamc-d-14-0241.1 ◽

2015 ◽

Vol 54 (7) ◽

pp. 1430-1448 ◽

Cited By ~ 42

Author(s):

Patrick Conry ◽

Ashish Sharma ◽

Mark J. Potosnak ◽

Laura S. Leo ◽

Edward Bensman ◽

...

Keyword(s):

Climate Change ◽

Dynamical Downscaling ◽

Global Climate ◽

Climate Change Impacts ◽

Future Climate ◽

Urban Heat Islands ◽

General Applicability ◽

Wide Range ◽

Microscale Model ◽

Model Chain

AbstractThe interaction of global climate change and urban heat islands (UHI) is expected to have far-reaching impacts on the sustainability of the world’s rapidly growing urban population centers. Given that a wide range of spatiotemporal scales contributed by meteorological forcing and complex surface heterogeneity complicates UHI, a multimodel nested approach is used in this paper to study climate-change impacts on the Chicago, Illinois, UHI, covering a range of relevant scales. One-way dynamical downscaling is used with a model chain consisting of global climate (Community Atmosphere Model), regional climate (Weather Research and Forecasting Model), and microscale (“ENVI-met”) models. Nested mesoscale and microscale models are evaluated against the present-day observations (including a dedicated urban miniature field study), and the results favorably demonstrate the fidelity of the downscaling techniques that were used. A simple building-energy model is developed and used in conjunction with microscale-model output to calculate future energy demands for a building, and a substantial increase (as much as 26% during daytime) is noted for future (~2080) climate. Although winds and lake-breeze circulation for future climate are favorable for reducing energy usage by 7%, the benefits are outweighed by such factors as exacerbated UHI and air temperature. An adverse change in human-comfort indicators is also noted in the future climate, with 92% of the population experiencing thermal discomfort. The model chain that was used has general applicability for evaluating climate-change impacts on city centers and, hence, for urban-sustainability studies.

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A network of meteorological stations for monitoring climate change impacts and adaptation on urban and rural environments

10.5194/ems2021-327 ◽

2021 ◽

Author(s):

Giannis Lemesios ◽

Gianna Kitsara ◽

Konstantinos V. Varotsos ◽

Basil Psiloglou ◽

Christos Giannakopoulos

Keyword(s):

Climate Change ◽

Relative Humidity ◽

Air Temperature ◽

Rural Areas ◽

Meteorological Parameters ◽

Climate Change Impacts ◽

Climate Indices ◽

Accurate Information ◽

Climatic Data ◽

Wide Range

&#921;n the framework of two European Projects, the LIFE URBANPROOF and LIFE TERRACESCAPE, a network of 24 meteorological stations has been installed for recording meteorological parameters and climate indices for the monitoring of impacts of climate change on urban and agricultural areas as well as for the assessment of respective adaptation measures.Regarding the urban environment, the study aims to estimate the Urban Heat Island (UHI) effect in the Greater Athens&#8217; Municipality of Peristeri, Greece, by analysing data from the meteorological stations installed (since January 2020) in different urban surroundings and investigating relative changes in surface temperatures and perceived thermal discomfort (HUMIDEX) thus identifying hot and cool spots at the local scale. The UHI mapping in the Municipality of Peristeri was designed and implemented in such a way, as to provide accurate information about heat stress conditions across different parts of the city. Fully automated sensors of air temperature and relative humidity were installed at eleven (11) sites throughout the municipality, covering a wide range of urban characteristics, such as densely populated areas, open spaces, municipal parks etc., where local climatic conditions were expected to show a degree of variation.As regards the rural environment, the study intends to estimate the anticipated changes of the micro-climate in the Aegean island of Andros, Greece after land-use interventions, which are considering the use of drystone terraces as green infrastructures resilient to climate change impacts. To that end, a network of 13 meteorological stations has been installed in selected rural areas of Andros since June 2018 for monitoring purposes. The thirteen meteorological stations, 12 small autonomous stations and 1 automated, currently operating on Andros Island continue (till now days) to generate baseline (micro-) climatic data, providing basic meteorological parameters such as air temperature and relative humidity. In addition, the valuable information, based on observational data from installed network of the meteorological stations, located either at currently abandoned terrace sites (project plots) or cultivated sites of Andros will be used to provide a solid basis for comparisons with changes projected for the future climate, combined with climatic indices which directly or indirectly affect agriculture in the monitoring areas.&#160;

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Assessment of climate change impacts on the quantity and quality of a coastal catchment using a coupled groundwater–surface water model

Climatic Change ◽

10.1007/s10584-011-0367-3 ◽

2011 ◽

Vol 113 (3-4) ◽

pp. 1025-1048 ◽

Cited By ~ 9

Author(s):

Torben O. Sonnenborg ◽

Klaus Hinsby ◽

Lieke van Roosmalen ◽

Simon Stisen

Keyword(s):

Climate Change ◽

Surface Water ◽

Climate Change Impacts ◽

Water Model

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Attitude Changes of Stakeholders towards Climate Change Adaptation Policies in Agricultural Sector by Online Deliberation

Climate ◽

10.3390/cli9050075 ◽

2021 ◽

Vol 9 (5) ◽

pp. 75

Author(s):

Kenshi Baba ◽

Eri Amanuma ◽

Motoko Kosugi

Keyword(s):

Climate Change ◽

Climate Change Adaptation ◽

Rural Areas ◽

Virtual Communities ◽

Agricultural Sector ◽

Climate Change Impacts ◽

Online Deliberation ◽

Pros And Cons ◽

Adaptation Policies ◽

Attitude Changes

This study set up online virtual communities consisting of farmers and stakeholders involved in agriculture and nonfarmers living in rural areas interested in agricultural production. We conducted a deliberation within the communities for 14 days on identifying important climate change adaptation policies for 30 years later under climate change impacts with the relevant knowledge from experts. During the deliberation, after self-introduction took place including the realization of climate change impacts, the participants were provided with the expert knowledge on impacts of climate change, adaptation policies in agricultural sector and so on, then the following discussions covered issues such as the distribution of agricultural produce, insufficient successors, and support for farmers, such as impacts on crops during disasters concerning future scenarios. Attitude changes before and after deliberation were observed in terms of the pros and cons of climate change adaptation policies in agriculture and rural areas, but statistically significant differences were not observed. On the other hand, a statistically significant change was observed in some determinants of the pros and cons, such as the perceived effectiveness and goal intention. This structural change results from that the participants became aware of a different perspective through deliberation. Thus, the online deliberation process was effective to some extent in increasing knowledge and promoting deeper understanding among participants during inquiry and reasoning was deepened in the process as they listened to the opinions of others in a different position with a different idea as well as read and search for scientific findings and information provided by experts.

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Nature-Based Solutions to face climate change adaptation and mitigation in Mediterranean watersheds

10.5194/egusphere-egu21-2035 ◽

2021 ◽

Author(s):

Itxaso Ruiz ◽

María José Sanz

Keyword(s):

Climate Change ◽

Climate Change Adaptation ◽

Land Management ◽

Rural Areas ◽

Management Practices ◽

Water Cycle ◽

Climate Change Impacts ◽

Watershed Scale ◽

Sustainable Rural Development ◽

Adaptation And Mitigation

Rural areas of the Mediterranean watersheds face great environmental challenges, where climate change impacts the water cycle, the soil, and biodiversity, which are often priority issues for adaptation. These, have been aggravated by historical land management practices trends. In this context, we propose Nature Based Solutions (NBS) in the form of Sustainable Land Management (SLM) actions at the watershed scale to achieve climate change adaptation and mitigation while promoting other ecosystem services.SLM actions are local adaptation practices that promote sustainable rural development. Thus, we seek the combination of several actions to achieve regional (watershed scale) more integrated approaches. With this study, we aim at proving that NBS, and thus SLM, is a successful tool for alleviating climate change impacts (i.e. water scarcity, enhanced erosion, biodiversity decline) while promoting the role of land in mitigation and enhancing biodiversity in the rural Mediterranean areas.For this, we propose a novel conceptualization of SLM actions that moves from their local application and evaluation to the regional more systemic approaches through their combination. Results show synergies in the atmosphere, biosphere, and hydrosphere, allow for the upscaling of SLM through systemic approaches and point at direct contributions to several Sustainable Development Goals.

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Advances in the data rescue and digitization of historical wind speed observations in Sweden: the WINDGUST project

10.5194/egusphere-egu21-5848 ◽

2021 ◽

Author(s):

Erik Engström ◽

Cesar Azorin-Molina ◽

Lennart Wern ◽

Sverker Hellström ◽

Christophe Sturm ◽

...

Keyword(s):

Climate Change ◽

Wind Speed ◽

Global Climate ◽

Current Status ◽

Weather Data ◽

Climate Data ◽

Intergovernmental Panel ◽

Staff Members ◽

The 1960S

Here we present the progress of the first work package (WP1) of the project &#8220;Assessing centennial wind speed variability from a historical weather data rescue project in Sweden&#8221; (WINDGUST), funded by FORMAS &#8211; A Swedish Research Council for Sustainable Development (ref. 2019-00509); previously introduced in EGU2019-17792-1 and EGU2020-3491. In a global climate change, one of the major uncertainties on the causes driving the climate variability of winds (i.e., the &#8220;stilling&#8221; phenomenon and the recent &#8220;recovery&#8221; since the 2010s) is mainly due to short availability (i.e., since the 1960s) and low quality of observed wind records as stated by the Fifth Assessment Report (AR5) of the Intergovernmental Panel on Climate Change (IPCC).The WINDGUST is a joint initiative between the Swedish Meteorological and Hydrological Institute (SMHI) and the University of Gothenburg aimed at filling the key gap of short availability and low quality of wind datasets, and improve the limited knowledge on the causes driving wind speed variability in a changing climate across Sweden.During 2020, we worked in WP1 to rescue historical wind speed series available in the old weather archives at SMHI for the 1920s-1930s. In the process we followed the &#8220;Guidelines on Best Practices for Climate Data Rescue&#8221; of the World Meteorological Organization. Our protocol consisted on: (i) designing a template for digitization; (ii) digitizing papers by an imaging process based on scanning and photographs; and (iii) typing numbers of wind speed data into the template. We will report the advances and current status, challenges and experiences learned during the development of WP1. Until new year 2020/2021 eight out of thirteen selected stations spanning over the years 1925 to 1948 have been scanned and digitized by three staff members of SMHI during 1,660 manhours.

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Developing an Integrative Theoretical Framework for Climate Proofing Spatial Planning Across Sectors, Policy Levels and Planning Areas

10.20944/preprints202105.0410.v1 ◽

2021 ◽

Author(s):

Maria Juschten ◽

Florian Reinwald ◽

Roswitha Weichselbaumer ◽

Alexandra Jiricka-Pürrer

Keyword(s):

Climate Change ◽

Rural Areas ◽

Spatial Planning ◽

Conceptual Development ◽

Climate Change Impacts ◽

Holistic Approach ◽

Theoretical Framework ◽

Federal States ◽

Planning Experts ◽

Urban And Regional Development

Spatial planning holds a key role in preventing or mitigating the impacts of climate change on both cities and rural areas, taking a forward-thinking and holistic approach to urban and regional development. As such, spatial planning deals with challenges occurring at different scales and across sectors. The international literature points out the need for horizontal and vertical cooperation to tackle climate change impacts. While there is abundant knowledge regarding the challenges related to climate change at different spatial levels, procedural integration into planning frameworks and practice is currently under-researched. This paper presents a novel theoretical framework that integrates various steps towards a holistic, integrative and adaptive climate proofing process. An iterative process was used for conceptual development, based on literature review followed by external feedback meetings and two workshops with the core team of planning experts responsible for exchange across federal states. By specifically addressing the challenges relating to cross-regional and cross-sectoral planning, this novel framework attempts to (i) facilitate a hierarchy of measures, (ii) maximise co-benefits for various adaptation purposes and climate change mitigation and (iii) foster the long-term institutionalisation of integrative processes across sectors, planning areas and policy levels.

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Global Potato Yields Increase Under Climate Change With Adaptation and CO2 Fertilisation

Frontiers in Sustainable Food Systems ◽

10.3389/fsufs.2020.519324 ◽

2020 ◽

Vol 4 ◽

Author(s):

Stewart A. Jennings ◽

Ann-Kristin Koehler ◽

Kathryn J. Nicklin ◽

Chetan Deva ◽

Steven M. Sait ◽

...

Keyword(s):

Climate Change ◽

Climate Models ◽

Global Climate ◽

Climate Change Impacts ◽

Global Scale ◽

Global Climate Models ◽

Adaptation To Climate Change ◽

National Scale ◽

Modeling Studies ◽

Potato Yields

The contribution of potatoes to the global food supply is increasing—consumption more than doubled in developing countries between 1960 and 2005. Understanding climate change impacts on global potato yields is therefore important for future food security. Analyses of climate change impacts on potato compared to other major crops are rare, especially at the global scale. Of two global gridded potato modeling studies published at the time of this analysis, one simulated the impacts of temperature increases on potential potato yields; the other did not simulate the impacts of farmer adaptation to climate change, which may offset negative climate change impacts on yield. These studies may therefore overestimate negative climate change impacts on yields as they do not simultaneously include CO2 fertilisation and adaptation to climate change. Here we simulate the abiotic impacts of climate change on potato to 2050 using the GLAM crop model and the ISI-MIP ensemble of global climate models. Simulations include adaptations to climate change through varying planting windows and varieties and CO2 fertilisation, unlike previous global potato modeling studies. Results show significant skill in reproducing observed national scale yields in Europe. Elsewhere, correlations are generally positive but low, primarily due to poor relationships between national scale observed yields and climate. Future climate simulations including adaptation to climate change through changing planting windows and crop varieties show that yields are expected to increase in most cases as a result of longer growing seasons and CO2 fertilisation. Average global yield increases range from 9 to 20% when including adaptation. The global average yield benefits of adaptation to climate change range from 10 to 17% across climate models. Potato agriculture is associated with lower green house gas emissions relative to other major crops and therefore can be seen as a climate smart option given projected yield increases with adaptation.

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