scholarly journals Values and motivations in tourist perceptions of last-chance tourism

2015 ◽  
Vol 18 (1) ◽  
pp. 3-14 ◽  
Author(s):  
Ann Hindley ◽  
Xavier Font
Keyword(s):  
Climate Change ◽  
Climate Change Impacts ◽  
Photo Elicitation ◽  
The Arctic ◽  
Construction Technique ◽  
Projective Techniques ◽  
Personal Variables ◽  
The Social ◽  
Self Interest ◽  
Nuanced Understanding

Tourists' perceptions of climate change affect decisions and choices to visit destinations, which are disappearing because of climate change impacts. Values and motivations are two of the personal variables underpinning tourists' decisions. The study addresses both the limited values research in tourism and reveals unconscious motives by using projective techniques. Projective techniques avoid some of the social desirability bias present in much ethical research. Choice ordering technique and the list of values assist by assigning importance, with narrative responses providing meaning. The construction technique builds a story from a stimulus, with photo-elicitation using participants' personal holiday photographs. A sample of pre, during and post visit tourists to the Arctic and Venice were interviewed. Results, which provide a more nuanced understanding of how the personal variables of values and motivations are underpinned by self-interest, inform policies and the messages designed to influence pro-sustainability behaviour.

Balancing De Jure and De Facto Arctic Environmental Law Applied to the Oil and Gas Industry: Linking Indigenous Rights, Social Impact Assessment and Business in Greenland

2014 ◽  
Vol 6 (1) ◽  
pp. 63-119 ◽  
Author(s):  
Sandra Cassotta ◽  
Mauro Mazza
Keyword(s):  
Climate Change ◽  
Impact Assessment ◽  
Environmental Protection ◽  
Indigenous People ◽  
Interdisciplinary Research ◽  
Social Impact ◽  
Oil And Gas ◽  
The Arctic ◽  
Social Impact Assessment ◽  
The Social

What will take place in the Arctic in the next decade will have consequences for us all, as the changing of the “Albedo effect” is altering the global climate, disrupting many equilibria both in the ecosystem and in the social sphere. Changes in the Arctic will not stay in the Arctic, but will affect the rest of the planet. The need to exploit resources, the emergence of new actors in the Arctic and the discovery of abundant oil, gas, mineral and renewable energy resources mean that we have to literally rethink and reconstruct the “Arctic” as a concept. Huge promises are made, but big questions are also raised about how we are to rethink and regulate our “blue planet.” A new regulatory framework is thus inevitable. This article deals with the social aspects of the climate change’s effects and the understanding of human adaptation to climate change by explaining how the problem of exploration and exploitation of oil and gas and their use by indigenous people are strictly interconnected with Social Impact Assessment (SIA) and environmental protection. The article focuses on the social dimension of climate change coupled with business development of oil and gas firms in the Arctic with Greenland as a case study to illustrate opportunities and tensions affecting the indigenous Greenlandic people. Some conclusions are drawn with the formulation of recommendations on the urgent need for direct participation of Arctic indigenous people in the decision-making policy creation on environmental protection measures and culture and advice on how to implement such recommendations. A solution to implement such recommendation would be to develop an interdisciplinary research programme to be implemented through an interdisciplinary research centre susceptible to be turned into an international organization after a certain period of working activity at the academic level.

scholarly journals The impact of global warming on seasonality of ocean primary production

2013 ◽  
Vol 10 (1) ◽  
pp. 1421-1450 ◽  
Author(s):  
S. Henson ◽  
H. Cole ◽  
C. Beaulieu ◽  
A. Yool
Keyword(s):  
Climate Change ◽  
Primary Production ◽  
Nitrate Concentration ◽  
Mixed Layer Depth ◽  
Climate Change Impacts ◽  
The Arctic ◽  
Layer Depth ◽  
Biogeochemical Models ◽  
Ocean Productivity ◽  
The Impact

Abstract. The seasonal cycle (i.e. phenology) of oceanic primary production (PP) is expected to change in response to climate warming. Here, we use output from 6 global biogeochemical models to examine the response in the seasonal amplitude of PP and timing of peak PP to the IPCC AR5 warming scenario. We also investigate whether trends in PP phenology may be more rapidly detectable than trends in PP itself. The seasonal amplitude of PP decreases by an average of 1–2% per year by 2100 in most biomes, with the exception of the Arctic which sees an increase of ~1% per year. This is accompanied by an advance in the timing of peak PP by ~0.5–1 months by 2100 over much of the globe, and particularly pronounced in the Arctic. These changes are driven by an increase in seasonal amplitude of sea surface temperature (where the maxima get hotter faster than the minima) and a decrease in the seasonal amplitude of the mixed layer depth and surface nitrate concentration. Our results indicate a transformation of currently strongly seasonal (bloom forming) regions, typically found at high latitudes, into weakly seasonal (non-bloom) regions, characteristic of contemporary subtropical conditions. On average, 36 yr of data are needed to detect a climate change-driven trend in the seasonal amplitude of PP, compared to 32 yr for mean annual PP. We conclude that analysis of phytoplankton phenology is not necessarily a shortcut to detecting climate change impacts on ocean productivity.

scholarly journals Assessment of Livelihood Vulnerability of Fisherfolks in Coastal and Freshwater Fishing Communities of Ilaje in Ondo State

2021 ◽  
pp. 1-14
Author(s):  
Siyanbola A. Omitoyin ◽  
Adeniyi P. Ogungbure ◽  
Kemisola D. Osakuade
Keyword(s):  
Climate Change ◽  
Composite Index ◽  
Climate Change Impacts ◽  
Vulnerability Index ◽  
Coastal Communities ◽  
Fishing Communities ◽  
The Social ◽  
Ondo State ◽  
Food Vulnerability ◽  
Vulnerability Score

The study assessed the livelihood vulnerability of fisherfolks in both coastal and freshwater fishing communities of Ilaje Local Government area of Ondo state, Nigeria. Structured questionnaires were used to collect information from 200 fisherfolks from both communities. Data were analyzed using the descriptive statistics, Livelihood Vulnerability Index data were aggregated using a composite index and differential vulnerabilities were compared. The results showed that majority of the fisherfolks from freshwater and coastal communities were below 46 years old, respondents from the freshwater communities were 95% male, 5% females while all (100%) respondents in the coastal communities were male with majority assenting to fishing as their primary occupation. The freshwater communities showed greater vulnerability on the socio-demographic profile (SDP) index than coastal communities (SDP freshwater 0.49;SDPcoastal communities 0.34). Freshwater also showed greater vulnerability on the livelihood strategies component (0.45) than coastal communities (0.40). The social networks indicators were the same for the two communities. The overall health vulnerability score for freshwater communities (0.46) was higher than that for coastal communities (0.44).  Also, the overall food vulnerability score for freshwater households (0.23) was greater than that of coastal community households (0.22). Freshwater households had a lower vulnerability score (0.03) for the water component than coastal communities (0.17). Based on the incidents of flooding, droughts, storms and erosion, households in the coastal communities (0.50) were more vulnerable to natural disasters than those in the freshwater communities (0.41). Overall, coastal communities had a higher Livelihood Vulnerability Index (LVI) than freshwater (0.357 versus 0.356).This logical approach may be used to monitor vulnerability, programs and resources to assist fisherfolks. Also, there should be enlightenment on how to mitigate the factors enhancing climate change while good infrastructure and aids be given to those who suffer losses due to climate change impacts.

scholarly journals Perception and adaptation of agroforestry farmers in Upper Citarum Watershed to climate change

2021 ◽  
Vol 917 (1) ◽  
pp. 012020
Author(s):  
Sumaryanto ◽  
F Nurfatriani ◽  
S Astana ◽  
Erwidodo
Keyword(s):  
Climate Change ◽  
Arable Land ◽  
Climate Change Impacts ◽  
Farming System ◽  
Agricultural System ◽  
Social Forestry ◽  
Pests And Diseases ◽  
The Social ◽  
Cross Tabulation ◽  
Negative Impacts

Abstract Agroforestry is a form of an agricultural system that is adaptive to climate change. Based on the institutional form, the farming system developed under the social forestry program is agroforestry. This form of agroforestry is the essential capital for farmers to establish in their cultivated lands further. This study aim to determine agroforestry farmers’ perceptions in the Upper Citarum Watershed on climate change and the adaptation activities. The sample farmers are a sub-set of farmer households sample in the socio-economic survey conducted by ICASEPS – ACIAR in the collaborative research in 2019. The reliability of the data on variables that reflect farmers’ perceptions of adverse shocks experienced, which directly or indirectly related to climate changes, is tested with Cronbach’s Alpha. Data analysis is performed by cross-tabulation, while multiple regressions are used to determine the effect of social forestry cultivated areas on farmers’ income. The results show that more than 55 percent of farmers participating in social forestry say that since the last ten years climate patterns are increasingly unpredictable. The most negative impacts of climate change impacts are indirect effects which are pests and diseases. Popular adaptation are reactive ones, namely increasing the use of pesticides and more intensive use of inorganic fertilizers. Farmers adaptation which are more synergistic with mitigation such as organic farming or cultivation of perennial crops are still relatively low. The increase in the arable land area due to social forestry has significantly increased farmer’s household income. Referring to this phenomenon, conducive policies to increase farmer participation in these adaptation actions are needed.

scholarly journals Planning for climate change impacts on hydropower in the Far North

2017 ◽  
Vol 21 (1) ◽  
pp. 133-151 ◽  
Author(s):  
Jessica E. Cherry ◽  
Corrie Knapp ◽  
Sarah Trainor ◽  
Andrea J. Ray ◽  
Molly Tedesche ◽  
...  
Keyword(s):  
Climate Change ◽  
Water Resource Management ◽  
Climate Models ◽  
Climate Change Impacts ◽  
The Arctic ◽  
Far North ◽  
Glacier Recession ◽  
Hydrologic Impacts ◽  
Hydrologic Responses ◽  
Available Information

Abstract. Unlike much of the contiguous United States, new hydropower development continues in the Far North, where climate models project precipitation will likely increase over the next century. Regional complexities in the Arctic and sub-Arctic, such as glacier recession and permafrost thaw, however, introduce uncertainties about the hydrologic responses to climate change that impact water resource management. This work reviews hydroclimate changes in the Far North and their impacts on hydropower; it provides a template for application of current techniques for prediction and estimating uncertainty, and it describes best practices for integrating science into management and decision-making. The growing number of studies on hydrologic impacts suggests that information resulting from climate change science has matured enough that it can and should be integrated into hydropower scoping, design, and management. Continuing to ignore the best available information in lieu of status quo planning is likely to prove costly to society in the long term.

scholarly journals Climate-economy feedbacks, temperature variability, and the social cost of carbon

2020 ◽  
Author(s):  
Jarmo Kikstra ◽  
Paul Waidelich ◽  
James Rising ◽  
Dmitry Yumashev ◽  
Chris Hope ◽  
...  
Keyword(s):  
Climate Change ◽  
Social Cost ◽  
Climate Change Impacts ◽  
Climate Impacts ◽  
Temperature Variability ◽  
Policy Implications ◽  
Social Cost Of Carbon ◽  
Intergovernmental Panel ◽  
Country Level ◽  
The Social

<p>A key statistic describing climate change impacts is the “social cost of carbon” (SCC), the total market and non-market costs to society incurred by releasing a ton of CO<sub>2</sub>. Estimates of the SCC have risen in recent years, with improved understanding of the risk of climate change to various sectors, including agriculture [1], mortality [2], and economic growth [3].</p><p>The total risks of climate impacts also depend on the representation of human-climate feedbacks such as the effect of climate impacts on GDP growth and extremes (rather than a focus only on means), but this relationship has not been extensively studied [4-7]. In this paper, we update the widely used PAGE IAM to investigate how SCC distributions change with the inclusion of climate-economy feedbacks and temperature variability. The PAGE model has recently been improved with representations of permafrost thawing and surface albedo feedback, CMIP6 scenarios, and empirical market damage estimates [8]. We study how changes from PAGE09 to PAGE-ICE affected the SCC, increasing it up to 75%, with a SCC distribution with a mean around $300 for the central SSP2-4.5 scenario. Then we model the effects of different levels of the persistence of damages, for which the persistence parameter is shown to have enormous effects. Adding stochastic interannual regional temperature variations based on an analysis of observational temperature data [9] can increase the hazard rate of economic catastrophes changes the form of the distribution of SCC values. Both the effects of temperature variability and climate-economy feedbacks are region-dependent. Our results highlight the importance of feedbacks and extremes for the understanding of the expected value, distribution, and heterogeneity of climate impacts.</p><p> </p><p>[1] Moore, F. C., Baldos, U., Hertel, T., & Diaz, D. (2017). New science of climate change impacts on agriculture implies higher social cost of carbon. Nature communications, 8(1), 1607.</p><p>[2] Carleton, et al. (2018). Valuing the global mortality consequences of climate change accounting for adaptation costs and benefits.</p><p>[3] Ricke, K., Drouet, L., Caldeira, K., & Tavoni, M. (2018). Country-level social cost of carbon. Nature Climate Change, 8(10), 895.</p><p>[4] Burke, M., et al. (2016). Opportunities for advances in climate change economics. Science, 352(6283), 292–293. https://doi.org/10.1126/science.aad9634</p><p>[5] National Academies of Sciences Engineering and Medicine. (2017). Valuing climate damages: updating estimation of the social cost of carbon dioxide. National Academies Press.</p><p>[6] Stiglitz, J. E., et al.. (2017). Report of the high-level commission on carbon prices.</p><p>[7] Field, C. B., Barros, V., Stocker, T. F., & Dahe, Q. (2012). Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: Special Report of the Intergovernmental Panel on Climate Change (Vol. 9781107025). https://doi.org/10.1017/CBO9781139177245.009</p><p>[8] Yumashev, D., et al. (2019). Climate policy implications of nonlinear decline of Arctic land permafrost and other cryosphere elements. Nature Communications, 10(1). https://doi.org/10.1038/s41467-019-09863-x</p><p>[9] Brierley, C. M., Koch, A., Ilyas, M., Wennyk, N., & Kikstra, J. S. (2019, March 12). Half the world's population already experiences years 1.5°C warmer than preindustrial. https://doi.org/10.31223/osf.io/sbc3f</p>

scholarly journals A Review of the Climate-Change-Impacts’ Rates of Change in the Arctic

2010 ◽  
Vol 01 (01) ◽  
pp. 59-69 ◽  
Author(s):  
Joseph Santhi Pechsiri ◽  
Amir Sattari ◽  
Paulina Garza Martinez ◽  
Liu Xuan
Keyword(s):  
Climate Change ◽  
Climate Change Impacts ◽  
The Arctic ◽  
Rates Of Change
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