Journal of Sustainable Tourism

ISSN: 0966-9582 (Print) 1747-7646 (Online) Journal homepage: www.tandfonline.com/journals/rsus20

A virtual geobibliography of polar tourism and
climate change

O. Cenk Demiroglu, Dorothee Bohn, Halvor Dannevig, C. Michael Hall,
Christy Hehir, Linda Lundmark, Robert O. Nilsson, Julia Olsen, Kaarina Tervo-
Kankare, Marisol Vereda & Johannes Welling

To cite this article: O. Cenk Demiroglu, Dorothee Bohn, Halvor Dannevig, C. Michael
Hall, Christy Hehir, Linda Lundmark, Robert O. Nilsson, Julia Olsen, Kaarina Tervo-
Kankare, Marisol Vereda & Johannes Welling (2024) A virtual geobibliography of polar
tourism and climate change, Journal of Sustainable Tourism, 32:9, 1948-1964, DOI:
10.1080/09669582.2024.2370971

To link to this article:  https://doi.org/10.1080/09669582.2024.2370971

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Journal of SuStainable touriSm
2024, Vol. 32, no. 9, 1948–1964

A virtual geobibliography of polar tourism and climate 
change

O. Cenk Demiroglua , Dorothee Bohna , Halvor Dannevigb , C. Michael Hallc,d,e,f , 
Christy Hehirg , Linda Lundmarka , Robert O. Nilssona , Julia Olsenh , 
Kaarina Tervo-Kankared , Marisol Veredai  and Johannes Wellingj 
aDepartment of Geography & the arctic Centre, umeå university, umeå, Sweden; bnorwegian research Centre 
on Sustainable Climate Change adaptation, Western norway research institute, Sogndal, norway; cDepartment 
of management, marketing, and entrepreneurship, university of Canterbury, Christchurch, new Zealand; 
dGeography research unit, university of oulu, oulu, finland; eSchool of business and economics, linnaeus 
university, Växjö, Sweden; finstitutionen för service management och tjänstevetenskap, lunds universitet, lund, 
Sweden; gSchool of Hospitality and tourism management, university of Surrey, Guildford, united Kingdom; 
hnordland research institute, bodø, norway; iinstituto de Desarrollo económico e innovación, universidad 
nacional de tierra del fuego, ushuaia, argentina; jresearch Centre Hornaförður, university of iceland, Höfn, 
iceland

ABSTRACT
The polar regions are increasingly at the center of attention as the hot 
spots of climate crisis as well as tourism development. The recent IPCC 
reports highlight several climate change risks for the rather carbon-intensive 
and weather-based/dependent polar tourism industry in the Arctic and 
the Antarctic. This study presents the scholarly state-of-knowledge on 
tourism and climate change in the polar regions with a literature survey 
extending beyond the Anglophone publications. As a supporting tool, we 
provide a live web GIS application based on the geographical coverages 
of the publications and filterable by various spatial, thematic and bibli-
ographical attributes. The final list of 137 publications indicates that, region-
ally, the Arctic has been covered more than the Antarctic, whilst an uneven 
distribution within the Arctic also exists. In terms of the climate change 
risks themes, climate risk research, i.e. impact and adaptation studies, 
strongly outnumbers the carbon risk studies especially in the Arctic context, 
and, despite a balance between the two main risk themes, climate risk 
research in the Antarctic proves itself outdated. Accordingly, the review 
ends with a research agenda based on these spatial and thematic gaps 
and their detailed breakdowns.

Introduction

The tourism system and the climate crisis are on a constant interplay to shape each other’s 
futures. On the one hand, climatic changes have direct and indirect impacts on the tourism 
products, whereas on the other hand, touristic consumption tends to have a high carbon 

© 2024 the author(s). Published by informa uK limited, trading as taylor & francis Group

CONTACT o. Cenk Demiroglu  cenk.demiroglu@umu.se  Department of Geography & the arctic Centre, umeå 
university, umeå, Sweden.

this is an open access article distributed under the terms of the Creative Commons attribution license (http://creativecommons.org/licenses/
by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. the terms 
on which this article has been published allow the posting of the accepted manuscript in a repository by the author(s) or with their consent.

ARTICLE HISTORY
Received 31 July 2023
Accepted 17 June 2024

KEYWORDS
Climate change; polar 
tourism; Arctic; Antarctic; 
geobibliography; Web 
GIS

https://doi.org/10.1080/09669582.2024.2370971

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JOuRNAL Of SuSTAINABLe TOuRISM 1949

footprint, hence driving climate change. These mutual effects become more prominent when 
relatively remote, thus carbon-intensive, and weather-based/dependent tourism destinations are 
in question. As such, the polar regions are increasingly at the center of academic, political, and 
practical attention as the hot spots of climate crisis as well as tourism development (Demiroglu 
& Hall, 2020; Meredith et  al., 2019).

The Sixth Assessment Report (AR6) of the Intergovernmental Panel on Climate Change on the 
physical science basis of climate change (IPCC, 2021, also see the IPCC’s WGI Interactive Atlas at 
https://interactive-atlas.ipcc.ch) highlights that, in the Arctic, sea ice decrease and Greenlandic ice 
sheet melt in the last decades have resulted from human influence with a 90–100% likelihood. 
September Arctic sea ice is projected to disappear already by 2050 according to the mid and high 
greenhouse gas emissions scenarios (IPCC, 2021). Ice sheets on Greenland and Antarctica are pro-
jected to disappear throughout the twenty first century with 99–100% and 66–100% likelihoods, 
respectively (IPCC, 2021). Across the entire Arctic, there is an observed trend for increases in extreme 
heats since 1979 (IPCC, 2021), along with losses of snow cover and glaciers, and a medium confi-
dence for increasing fire risks by 2050s, according to the mid and high greenhouse gas emissions 
scenarios (IPCC, 2021). Indeed, Arctic warming rate is observed to be quadruple the rate of global 
warming within the last four decades since 1979 (Rantanen et  al., 2022).

In relation to these physical changes, the latest reports of the Intergovernmental Panel on 
Climate Change on impacts, adaptation and vulnerability (IPCC, 2022a) and mitigation (IPCC, 
2022b) highlight the most relevant phenomena for polar tourism as those climate risks such 
as shortening seasons and safety issues for snow and/or ice based activities such as dogsled-
ding, skiing, snowmobiling and floe edge tours due to diminishing snow cover and sea ice 
extents and durations. These most often negative physical impacts are, however, also pointed 
as bringing “opportunities” in the forms of longer warm weather seasons and increased demand 
and supply of cruise and “last chance tourism (LCT)” (IPCC, 2022a). As such, negative impacts 
on biodiversity (e.g. polar bears) and landscapes (e.g. glaciers) become the attraction, or the 
motive, of this trending tourism type. According to the IPCC. (2022a; 2022b), popularity of the 
LCT as well as the improvement of maritime accessibility with diminishing sea ice also gives 
rise to polar cruise tourism, yet with increased carbon risks arising from ships’ emissions. As 
Scott et  al. (2023) note, tourism in general is often portrayed as part of the solution to climate 
change within the latest IPCC reports (2022a; b), but not as part of the problem itself, as well 
as the victim to the problem, thus not comprehensively covered. Such limited coverage is also 
true for the earlier, yet regionally more specific, Special Report on the Ocean and the Cryosphere 
in a Changing Climate (SROCC) by the IPCC (Meredith et  al., 2019), reviewing about 39 publi-
cations on polar tourism and climate change, with focus on climate risks associated with cruise 
tourism and LCT (Demiroglu & Hall, 2020).

Besides the IPCC discourse, climate change and tourism scholarship itself has been developing 
since 1986 (Becken, 2013) and polar tourism research can be dated back to even as early as 
1980 (Stewart et  al., 2017). The intersecting literature on climate change and polar tourism, 
however, is assessed to be young, with the earliest studies starting only from 2004 (Demiroglu 
& Hall, 2020). Accordingly, the most prominent theme appears to be climate change adaptation 
of Arctic tourism. This is then followed by the topic of the so-called “combined impacts” of 
climate change and tourism in Antarctica—e.g. the region’s exposure to warming together with 
the effects of increased touristic mobilities as vectors to sensitive environments and biodiversity. 
Other themes based on the keyword clusters are then mostly about issues related to cruise 
tourism and last chance tourism. Another noteworthy finding here is that, in line with the 
introduction of the fifth Assessment Report (AR5) of the IPCC in 2013–2014, the keyword “cli-
mate change” becomes more frequently used than “global warming.” Moreover, over the course 
of the assessed literature from 2004 to 2019, pioneering research stems from Canada-based 
North American papers while european Arctic tourism also becomes a hot topic in the later 
years. All in all, the review concludes that most of this article-based, Anglophone literature, 

https://interactive-atlas.ipcc.ch


1950 O. C. DeMIROGLu eT AL.

extending from 2004 to 2019, has the “climate risk” (impacts and adaptation), rather than “carbon 
risk” (emissions and mitigation), in its focus, and that the coverage of climate risk fails to be 
spatially inclusive, especially regarding the Russian Arctic and the Antarctic with its gateways 
in the Southern Hemisphere.

In this study, we offer an extended review of climate change and tourism in the polar regions 
through a survey of up-to-date publications in all relevant languages of the region and formats 
including but not limited to journal articles. A Web GIS (geographical information system) is 
also developed to help interactively and geo-visually present the literature as filterable by year, 
country, language, publication type and, not least, the themes. In the following parts of this 
paper, we introduce the study area and our methodology, followed by syntheses of key impacts, 
adaptation levels, emissions and mitigation efforts, and concluded by a research agenda based 
on the spatially and thematically identified knowledge gaps.

Study area

The polar regions of the earth, namely the Arctic and the Antarctic, are defined by a variety 
of delineations according to different political and physical sources (Demiroglu & Hall, 2020). 
even within the IPCC terms, a standard regionalization is not always consistent. As pointed 
out in the fifth Assessment Report, the IPCC (2014) has conventionally defined the Arctic as 
north of the Arctic Circle (66°N) and the Antarctic as south of the Polar front, extending to 
58°S, while the need for a flexible regionalization approach for different contexts has also 
been acknowledged. Indeed, the SROCC (Meredith et  al., 2019, p. 211) has adopted “a pur-
posefully flexible approach” whereby the Antarctic extends to as north as the Subantarctic 
front beyond 50°S and the Arctic covers as south as beyond the 50°N—wherever the cryo-
spheric elements such as permafrost and snow cover are most prominent. In this paper, we 
also remain as flexible to treat the region from a tourism system perspective, where the “polar 
products” of tourism may agglomerate only around certain areas of the eight states of the 
Arctic Council, while the footprints and gains could extend far beyond even the IPCC’s recent 
flexible borders when, for instance, the touristic gateways of the Antarctic in South America, 
Oceania, and even South Africa, are taken into account. Therefore, the spatial coverage (figure 
1) of our literature survey matches with the reference regions east Antarctica, West Antarctica, 

Figure 1. iPCC ar6 working group i reference regions reviewed in this study.



JOuRNAL Of SuSTAINABLe TOuRISM 1951

Southern Ocean, Southern South America, Southern Australia, New Zealand, North-Western 
North America, North-eastern North America, Arctic Ocean, Greenland/Iceland, Northern europe, 
and the Russian Arctic, as defined in the Sixth Assessment Report (AR6) of the IPCC (Iturbide 
et  al., 2020).

The surveyed regions cover different countries and territories that portray various polar selling 
propositions, travel trends, and tourism-climate policy nexuses. In North America, the Alaska 
Travel Industry Association (ATIA) promotes its far North region as the “Arctic,” characterized by 
the northern lights, the snowy landscapes and the long summer days, the wildlife, and not 
least the indigeneous cultures. Prior to the COVID-19 pandemic, Alaska’s out-of-state visitor 
volume had increased by 43% during the 2010–2019 period, peaking with 2,536,000 visitors in 
2018–19, where 53% entered or exited by cruise and 43% by air (ATIA, 2020). In Canada, tourism 
is regarded as a strong contributor to economic sustainability and a safeguard for the indige-
neous cultural heritage in the country’s remote areas such as the Arctic (Government of Canada, 
2023), which can be defined by destinations such as Yukon, Nunavut, Northwest Territories, 
Nunavik, Labrador and Churchill, altogether attracting more than half million visitors per year 
already in the early 2010s (Maher et  al., 2014).

Tourism in the Arctic extends from North America to the Nordic countries and Russia. It is 
a highly strategic sector for Denmark’s two overseas territories, Greenland and the faroe Islands, 
for the much-needed economic diversification and strengthening of the autonomies. During 
2014–2019, overnight stays grew by 44% and 25% in the faroe Islands and Greenland, respec-
tively, where cruise tourism plays a major role (Visit faroe Islands, 2019; Visit Greenland, 2021). 
Another Arctic insular destination, Iceland, known for its unique blend of cryospheric and 
volcanic attractions, experienced a boom in its tourism industry with the mostly airborne inter-
national arrivals quintupling from 460,000 to 2.3 million during 2010–2018 and the overnight 
stays tripling from 3.3 million to 10 million during 2011–2019 (Icelandic Tourism Board, 2021). 
Such significant tourism development is also highly visible in the fennoscandian Arctic, where 
Arctic Norway’s islands of Svalbard, Bjørnøya and Jan Mayen and the mainland counties of 
Nordland, Troms and finnmark registered 4.2 million overnight stays, of which 1.6 million were 
foreign nationals, in the pre-pandemic 2019 season (Statistics Norway, 2024). During the same 
season, in Arctic finland, i.e. the Lapland Region where thematic products such as Santa Claus/
Christmas tourism have been historically very strong, 3.1 million overnight stays (of the national 
total of 23 million), of which 1.6 million were internationals (compared to the 7.1 million total), 
have taken place (Statistics finland, 2024). In Sweden, the so-called “Arctification” trend has 
been on the stage with the number of firms with Arctic-related names in the two northernmost 
counties, Norbotten and Västerbotten, having reached 218 by 2019 (Marjavaara et  al., 2022). 
The Russian Arctic, on the other hand, covering a vast geography from the Kola Peninsula and 
the Arctic National Park (Severny Island and franz Josef Land) to Siberia, attracted around 1 
million tourists in both 2019 and 2023, maintaining the pre-pandemic visitor volume despite 
the war outbreak (Ministry for the Development of the Russian far east & Arctic, 2020; TASS, 2024).

Popularity of tourism in the Arctic for consumers, businesses and policymakers is also well 
reflected in the quest for the Antarctic’s unique nature and wildlife. Despite the continent’s 
uninhabited landscapes, except for the presence of scientific missions, a record-breaking 106,000 
touristic arrivals, with seaborne (95%) and airborne (5%) trips from gateway cities such as 
ushuaia (Argentina), Punta Arenas (Chile), Hobart (Australia), Christchurch (New Zealand) and 
Cape Town (South Africa), were registered for the 2022–2023 season—compared to the 6700 
visitors in the 1992–1993 season and the 74,000 visitors in the previous record-high season of 
2019–2020 before the pandemic (International Association of Antarctica Tour Operators, 2022; 
Varnajot et  al., 2024). In addition to the revenues and jobs gained by logistic support, the 
gateway cities themselves have also been offering in-place, Antarctic-related thematic attractions 
and activities (Jensen et  al., 2016; Dodds & Salazar, 2021), making them a subtle component 
of a wider “Antarctification” process (Varnajot et  al., 2024).



1952 O. C. DeMIROGLu eT AL.

Along with the tourism growth trends towards the polar regions, governing policies and 
practices have also been materializing, yet with not much of a consistent tourism-climate nexus 
across the regions and the at the different governance levels. In Russia, the “Strategy for the 
development of the Arctic zone of the Russian federation and ensuring national security for 
the period until 2035” (Russian Government, 2020) has no explicit coverage of the tourism-climate 
nexus. In the uSA, the “National Strategy for the Arctic Region” (White House, 2022) names 
tourism as one of the main sectors to be supported for the sake of Alaksa’s sustainable growth 
and job creation but no national tourism policy addresses climate change risks, from an indus-
trial and regional perspective. Such risks are covered as part of the voluntary “Adventure Green 
Alaska (2018)” certification scheme’s climate change audit. In the study area, Canada’s “federal 
Tourism Growth Strategy” (Innovation & Science & economic Development Canada, 2023) and 
Norway’s “National Tourism Strategy 2030” (Innovation Norway, 2021) are the only two policy 
documents that acknowledge both the climate and the carbon risks of tourism at the national 
government level. Besides its focus on the development of tourism in the rural and remote 
regions such as the Arctic, Canada’s strategy promotes climate action in line with the national 
net-zero emission target by 2050, and partly fulfilling the gap for a national regulatory frame-
work for creating a responsible destination with regards to climate change mitigation (Dodds 
& Graci, 2009). However, while concrete plans towards shifting from car-based transportation 
to more active modes such as walking and biking at the destinations and funding sustainable 
aviation technologies exist, the country is still challenged by touristic carbon risks due to its 
global remoteness and the vast terrain and the consequent air/car travel dependency, the 
popular and carbon-intensive cruise tourism product, and the high demand from car-based 
crossborder travel from the uSA. In Norway, too, the strategy embraces the developmental 
contribution of tourism, especially with job creation, in the most remote regions, with major 
growth already taking place in North, and the mitigation challenge is clearly underscored by 
encouraging “high yield—low impact” target markets, i.e. visitors that spend the most with 
longer stays and emit the least with shorter distances, as well as a more localized supply chain.

explicit reference to the carbon, if not the climate, risks is evident in the national tourism 
policies of other Nordic countries as well. In finland, the “Sustainable Travel finland” programme 
supports the travel industry in the pursuit of low-carbon operations by providing them with 
carbon calculators (Visit finland, 2019). In Sweden, mitigation challenges requiring fossil-free 
transport systems and circular business models along the entire tourism value chain is high-
lighted under the “Strategy for Sustainable Tourism and Growing Hospitality Industry” 
(Regeringskansliet, 2021). In Iceland, the former national tourism policies, i.e. the “Tourism 
Strategy for 2011–2020” (Althingi, 2011), “Promote Iceland: Long-term Strategy for the Icelandic 
Tourism Industry” (PKf., 2013) and the “Road Map for Tourism in Iceland” (Ministry of Industries 
& Innovation & Icelandic Travel Industry Association, 2015), were mostly focused on increasing 
profitability and professionalism of the tourism sector and extending the sector’s operation 
season and destinations outreach, with no mention of climate action (Gren & Huijbens, 2014). 
However, the new tourism strategy for 2021–2030 (Ministry of Industries & Innovation, 2019) 
gives the tourism-climate policy nexus a more prominent place by stating that the Icelandic 
tourism sector needs to take up a pioneering role in energy transition and use of eco-friendly 
energy sources and reduce its carbon footprint—yet the mitigation of international travel emis-
sions from air and cruise arrivals is not clearly addressed. Likewise, in the faroe Islands, the 
former policy (Visit faroe Islands, 2021) has addressed the need to limit and to tax cruise tourism 
mainly due to carrying capacity issues, not necessarily carbon footprint concerns. The new 
“Heim: Tourism strategy towards 2030,” however, states a “wish” to “support the climate policy 
set by the faroe Islands and the international community” (Visit faroe Islands, 2023, p. 86). In 
Greenland, where tourism is a key growth sector with a need for long-distance markets, no 
climate change risks were covered under the “Towards More Tourism” strategy (Visit 
Greenland, 2021).



JOuRNAL Of SuSTAINABLe TOuRISM 1953

In terms of Antarctic tourism, no climate change risks are covered under the polar tourism 
related policies of the major gateway cities’ parent countries—Argentina, Chile, South Africa, 
New Zealand and Australia. When looking into the other way around, i.e. how the climate 
policies cover the tourism issues, the situation is not very different. The gateway cities are part 
of a supranational body of agreements, i.e. Antarctic Treaty System (ATS), and there the “Helsinki 
Declaration on Climate Change and the Antarctic” has prioritized the decarbonization of the 
tourism sector but not mentioned any tourism-specific impacts and adaptation needs, except 
for the historic sites and monuments (Antarctic Treaty, 2023). Likewise, the Nationally Determined 
Contributions (NDCs) that define the climate action efforts of the countries as parties of the 
international climate treaty, the Paris Agreement, are also limited, if not lacking, with respect 
to the tourism sector (uNfCCC., 2024). Here, Chile and Argentina have the widest coverage of 
tourism in their latest NDC updates, but not necessarily with linkages to their Antarctic tourism 
development. All other Antarctic gateway countries, apart from New Zealand, where no tourism 
content is covered under the latest NDC, as well as the Arctic nations, mention tourism only 
as an economic sector to help mitigation co-benefits through diversification-based adaptation. 
Greenland, on the other hand, has not become a part of the eu NDC, where Denmark is a 
party, and decided to develop its own climate policy and NDC with the right to exclude certain 
sectors’ emissions for the sake of economic development (uNRIC, 2023).

Methods

Given the heterogeneity of the physical climate risks in the polar regions, the growing popularity 
and the vulnerability of the most often climate-based/dependent tourism products, the domi-
nance of long-haul trips with generally carbon-intensive travel modes, and the complexity of 
all these triggers and the different levels of business and policy responses, this study aims for 
an understanding of the state of the scholarly knowledge on tourism and climate change in 
the polar regions. for this purpose, the survey builds upon the most recent review on this topic 
(Demiroglu & Hall, 2020), which covered 93 peer-reviewed articles in 51 different scientific 
journals published during 2004–2019. In this study, we initially replicated the Boolean string 
“((Antarctic* OR Arctic OR polar) AND ‘climate change’ AND touris*)” for the identification of 
publications through their titles, abstracts and keywords on the Web of Science and the Scopus 
databases. In addition, each polar country/region name was added to the string and a search 
was also repeated with different relevant languages (Spanish, french, Russian, Swedish, Norwegian, 
Danish, Icelandic, finnish) and including more local databases relevant to the study area, such 
as Leitir (Iceland), Oria (Norway), DiVA (Sweden), finna (finland), Arto (finland), eLibrary.Ru 
(Russia), Google Scholar (Russian and Icelandic versions), Latindex (Ibero-America), ReDIB 
(Ibero-America), Redalyc (Ibero-America) and ScieLO (Ibero-America and South Africa). All these 
steps helped maximize the coverage, yet still with limitations due to the linguistical diversity 
of the authors of this study and the conventional dominance of Anglophone contents in the 
main databases such as Scopus (Albarillo, 2014). We also identified other sources through back-
ward and forward snowballing techniques to check and select the thematically relevant papers 
cited by and citing our initial list. These additionally selected papers were extended further by 
adding others familiar to the authors. No publication type filter was applied to be as inclusive 
as possible, covering books, chapters, dissertations, proceedings and reports besides the articles. 
The ultimate listed yielded 137 publications (from 2004 to early 2022), well exceeding the 93 
articles (2004–2020) assessed as eligible by Demiroglu and Hall (2020). In this instance, only 
eight publications belonged to the “other” type—one book, three chapters, one dissertation, 
one proceeding, and two reports—while the remaining 129 were all peer-reviewed journal 
articles.

During meta-analysis, the geographical scopes and the tourism types in question were 
detected for each publication, followed by a coding of the climate related themes, where at 



1954 O. C. DeMIROGLu eT AL.

least one author as the initial coder was to have a mutual agreement with the overseeing 
author. During coding, a consistency with the similar macro-regional climate change and tourism 
reviews in the journal (Dube et  al., 2023; fang et  al., 2022; Higham et  al., 2022; Navarro-Drazich 
et al., 2023; Rutty et al., 2022; Steiger et al., 2023; Wolf et al., 2022) were sought after. Accordingly, 
the two major themes were the “climate risks” and the “carbon risks,” further broken down into 
the sub-themes of “impacts” and “adaptation” for the climate risks and “emissions” and “mitiga-
tion” for the latter. An additional main theme “climate and carbon risks” was also placed, following 
Demiroglu and Hall (2020), to reflect on the duality of special cases—e.g. (mal)adaptation leading 
to more impacts/emissions. Lastly, further elaboration on the sub-themes was realized by iden-
tification of the impact types as (1) average and extreme temperatures, (2) altered precipitation 
patterns (including cryosphere changes), (3) extreme weather (flood, fire, drought, storms/
hurricanes), (4) sea level rise and coastal change, (5) ecosystem/biodiversity change, (6) ocean 
temperatures and acidification, (7) human health risks, (8) social disruption/security (including 
population displacement), and (9) economic development/growth—with an additional binary 
code for integrated assessments that study multiple risks. Adaptation research, on the other 
hand, was classified according to the four generations, suggested by Klein et  al. (2017), in terms 
of descriptive, normative, policy-wise and practical priorities and foci. Lastly, carbon risk papers 
were categorized according to the four global, national, sub-national (destination) and business- 
level scales of emissions and mitigation action, as suggested by Gössling et  al. (2023).

Owing to the multi-thematic and/or the multi-geographical natures of some publications, 
more “cases” than the publications themselves were identified. for instance, a publication study-
ing both the impacts of climate change on polar bear tourism and indigeneous tourism at a 
destination and the emissions of cruise tourism to the destination would be made of three 
cases under the “study area—tourism type—climate theme” scheme, i.e.; (1) “destination—polar 
bear tourism—impacts,” (2) “destination—indigeneous tourism—impacts,” (3) “route—cruise tour-
ism—emissions.” Such an approach translated the 137 articles into 272 cases that can be used 
in different syntheses, both textually and visually.

As Lim et  al. (2022) suggest, innovative ways are needed to push the qualities of literature 
reviews which are standing out more as independent studies such as this one. One way to 
differentiate the reviews for spatially oriented domains is through a “geobibliography,” which, 
in the most basic sense, is a methodology developed by Demiroglu et  al. (2013), and later 
applied to polar tourism (Demiroglu & Hall, 2020), to cartographically locate studies according 
to their geographical scopes and to symbolize them according to their thematic attributes using 
(Web) GIS (geographical information systems). Web GIS enables not only an interactive display 
for the users, but also provides opportunities for future data collection and analytics in an 
efficient way (fu, 2022).

The geobibliography methodology has received a good adoption so far, with SkiKlima 
(Demiroglu et  al., 2013) having more than 35,000 views since 2011. for this review, we devel-
oped POLTOuR 2.0 (see https://poltour.geo.umu.se), by employing the experience Builder, within 
the ArcGIS Online (AGOL) ecosystem, which allows for creating desktop and mobile apps in a 
dashboard fashion with a customized design and a variety of widgets (Gaigg, 2023), such as 
the world-renowned COVID-19 Dashboard by Johns Hopkins university (Dong et  al., 2020), and, 
thus is able to provide a more sophisticated experience compared to the Google My Maps 
based first version of POLTOuR (Demiroglu & Hall, 2020, see https://tiny.cc/poltour1 for a backup). 
Moreover, a widget was integrated through the ArcGIS Survey123 platform, to keep the app 
collaborative with the users, by enabling the submission of any missing publications. finally, 
the ArcGIS 360 VR platform was utilized to develop a proof-of-concept virtual-reality for a more 
tangible experience of the geobibliography.

The POLTOuR Geobibliography 2.0 (figure 2) is based on a 3D web map (a “web scene”) 
with a main layer of “cases,” complemented by the climate reference regions layer delineated 
by the IPCC (Iturbide et  al., 2020). A “case” is defined as a point feature whose coordinates are 

https://poltour.geo.umu.se
https://tiny.cc/poltour1


JOuRNAL Of SuSTAINABLe TOuRISM 1955

determined by the actual geographical locations covered by its parent publication. It should, 
however, be noted that, the “spatialization” process, i.e. the efforts towards determining the 
representative case locations, has been a major challenge, as some studies cover wider regions 
and some are either ambiguous or confidential about their spatial limits.

users can interact with POLTOuR’s interface for searching for places/attractions, toggling on/
off layers, changing basemaps, and filtering for regions, themes and publication years, types, 
languages. filtered results are reflected on the charts, map features, and the Table View, which 

Figure 2. Poltour 2.0 (poltour.geo.umu.se) Web experience map view zoomed in to Svalbard (top), mobile version (bottom 
left), and Vr view for the South Shetland islands (bottom right).



1956 O. C. DeMIROGLu eT AL.

allows for an export of all or selected records within a CSV, JSON or GeoJSON file. Clicking on 
map features opens popups that give information about the cases and links the users to the 
original publications. Likewise, the “VR” button opens up the web scene slides where the user 
can interact with the features in virtual reality, using desktop or mobile devices, but best within 
a VR headset with a web browser app. Below, we utilize POLTOuR to understand the breakdown 
of and the research gaps related to the climate and the carbon risks of tourism in the polar 
regions.

Results

According to our survey and the POLTOuR indicators; there are 137 publications on the topic 
of tourism and climate change in the polar regions, representing 272 cases, 171 of which are 
on climate risks, 42 on carbon risks, and the remaining 59 on both. Regionally, the Antarctic is 
covered by 47 cases, whereas the Arctic is subject to 225 cases, mostly in Canada (n: 64), Norway 
(n: 45), finland (n: 35) and Greenland (n: 24), followed by uSA (n: 19), Russia (n: 18), Iceland 
(n: 15) and Sweden (n: 4). This rather uneven regional distribution manifests itself despite our 
efforts for being as inclusive as possible by surveying all publication types in all relevant lan-
guages, where eventually 126 publications were in english with few others in finnish (n: 4), 
Russian (n: 3), Spanish (n: 3) and french (n: 1). When publications are filtered from the year 
2014 onwards, a similar trend is also valid for the post-AR5 era, with the most case coverage 
on the four Arctic countries Norway (36), Canada (33), Greenland (22) and finland (21) and the 
climate risk sub-themes (impacts: 58, adaptation: 55) versus the carbon risk sub-themes (emis-
sions: 7, mitigation: 18). Below we elaborate the recurring themes on both risk categories, and 
finally discuss the regional and the thematic gaps and an agenda for future research.

Climate risk

Climate risk is the most studied main theme within the polar tourism and climate change 
domain, and it is almost evenly broken down between its two sub-themes “impacts” (45 pub-
lications and 88 cases in total, and 28 publications and 58 cases in the post-AR5 era) and 
adaptation (49 publications and 83 cases, and 32 publications and 55 cases in the post-AR5 
era). Regarding the distribution of impact studies (Table 1), whilst most studies are integrated 
assessments, some impact types are underrepresented and almost no study exists for the 
Antarctic, especially in the latter period, except for some studies on rebound effects and com-
bined impacts, where, for instance, seabird populations, including the iconic penguins, are found 
to be affected both negatively and positively by increasing temperatures and touristic visits 
(Dunn et  al., 2019; Petry et  al., 2016; Raya Rey et  al., 2014), while in the Arctic, the combined 

Table 1. regional and temporal distribution of climate risk publications by impact types.

region arctic antarctic

Period Pre-ar5 Post-ar5 Pre-ar5 Post-ar5

average & extreme temperatures 7 10 0 0
altered precipitation patterns 11 14 3 0
extreme weather 5 6 0 0
Sea level rise and coastal change 1 1 1 0
ecosystem/biodiversity change 5 3 1 0
ocean temperatures & acidification 0 0 0 0
Human health risks 1 1 0 0
Social disruption/security 2 6 0 0
economic development/growth 6 13 0 0
Integrated assessments 13 27 1 0
Total 14 28 4 0



JOuRNAL Of SuSTAINABLe TOuRISM 1957

impacts of climate change and tourism development tend to cause detrimental effects for 
biodiversity (Tolvanen & Kangas, 2016), especially the polar bears (Rode et al., 2018). Consequently, 
a debate also rises on the potential environmental stewardship/ambassadorship of the “last 
chance tourists” to the Antarctic (Vila et  al., 2016) and the Arctic (Abrahams et  al., 2022; Groulx 
et  al., 2019; Miller et  al., 2020), since such transformation at times turns out to be much of a 
wishful thinking, leaving behind no real changes but combined local climate and tourism impacts 
and the high footprints of air- and/or cruise-based long-haul travels to the polar regions (see 
Carbon Risk).

In the Arctic, post-AR5 research on impacts has doubled itself with 28 publications (58 cases) 
on and after 2014, compared to the 14 publications (26 cases) before. Some authors have 
studied single impacts on multiple sites and tourism types, e.g.; precipitation effects on ski 
tourism in Greenland (Schrot et  al., 2019) and (Arctic) Norway (Scott et  al., 2020). There is even 
a couple of pan-Arctic cases of temperature impacts on summer tourism (Huang et  al., 2021) 
and increased summer Arctic cyclone activity risks on cruise tourism (Day & Hodges, 2018), 
which, along with yacht tourism (Johnston et  al., 2017a), is expected to become more popular 
not only because of last chance tourists but also thanks to increased navigational opportunities 
with less sea ice, yet at a cost of decreased attractiveness (Bystrowska, 2019). Another study 
(Denstadli & Jacobsen, 2014) on summer sightseeing tourism in Svalbard (Norway), has looked 
into how the combined effects of changing temperature, precipitation and extreme weather 
patterns impact visitor perceptions and responses, finding out that reduced visibility in the 
future, as a consequence of projected increases in precipitation and overcast skies, could become 
a problem for the destination. Among the other post-AR5 integrated impact assessments; Lépy 
et  al. (2016) found evident increases in changing weather and slippery conditions and tourist 
safety issues against accidents at a nature-based tourism destination in Arctic finland, whereas 
Teryutina (2021) highlighted the demographic and the economic challenges posed by a changing 
climate to the indigeneous peoples of the Russian Arctic.

As with impact assessments, adaptation research has also almost doubled itself with 32 
publications (55 cases) after the release of the IPCC’s fifth Assessment Report, compared to the 
17 publications (28 cases) before. This era has witnessed more presence of the “fourth gener-
ation” studies that deal with the actual performances of the adaptation efforts on the field, 
seeking after performance measurement and knowledge gaps (Klein et  al., 2017). Here the 
studies focused on ski tourism in finland (Kaján, 2014, Tervo-Kankare et  al., 2018), Norway 
(Dannevig et  al., 2021) and Greenland (Schrot et  al., 2019), cruise tourism in Canada (Dawson 
et  al., 2014, 2016; Lasserre & Tetu, 2015) and Norway (Lamers et  al., 2018), Christmas tourism 
in uSA and finland (Hall, 2014), and glacier tourism in Iceland (Welling & Abegg, 2021).

The series of papers on Icelandic glacier tourism and climate change provide a good example 
on the generational evolution of adaptation research, where, as a second generation study, 
Welling et  al. (2019) made use of a case study of Þröng and organized workshops to find out 
about the best practices against potential impacts. Then Welling et  al. (2020) went on to admin-
ister a consumer survey to inform the practitioners and the decisionmakers about future needs 
for a sustainable glacier tourism, reflecting a third generation study, as the focus on governance 
with the involvement of businesses and policymakers is typical of this generation. finally, Welling 
and Abegg (2021) interviewed Icelandic glacier tour operators to reveal their ongoing adaptation 
efforts and future needs, in line with the purposes of the fourth generation studies men-
tioned above.

During the post-AR5 era, the few first generation studies that explored potential risks included 
those on nature-based tourism in uSA (Sisneros-Kidd et  al., 2019), finland (Lépy et  al., 2014), 
Norway and Russia (Koenigstein et  al., 2016), and Antarctic cruise tourism (Liggett et  al., 2017). 
Second generation research encompassed marine tourism in Canada (Johnston et  al., 2017a, 
2017b; Olsen et  al., 2019; Stewart et  al., 2015), Russia and Norway (Olsen et  al., 2019), and the 
lodging sector in Greenland (Qu et  al., 2015) and Russia (Sarvut, 2018). As for the third 



1958 O. C. DeMIROGLu eT AL.

generation; the prominent studies were about ski tourism in Norway (Scott et  al., 2020), cruise 
tourism in Canada (Palma et  al., 2019) and Norway (Kaltenborn et  al., 2020), and nature-based 
tourism in Sweden (Nikodinoska et  al., 2015) and Canada (erickson, 2021). Such state of coverage 
indicates that adaptation research has not equally evolved around the regions and for different 
tourism types, and, that, while some areas and sectors can still require an initial assessment of 
potential risks, other may already be at a level of improving their current adaptation efforts.

Carbon risk

estimations of and responses to the carbon risks of tourism in the polar regions has scholarly 
been less covered, despite the widespread general decarbonization ambition of the polar nations 
(uNfCCC., 2024). Regarding the most up-to-date estimations since the release of the AR5, there 
are only a few national scale studies on Iceland (Saviolidis et  al., 2021; Sharp et  al., 2016), as 
well as its outbound tourism (Czepkiewicz et  al., 2019), a black carbon analysis for Antarctic 
tourism (Cordero et  al., 2022), and a carbon footprint study for finnish second home tourism 
(Adamiak et al., 2016) - and another one from a non-Arctic region of finland (Koivula & Tuominen, 
2019). The Icelandic analyses have assessed an average inbound tourist’s carbon footprint as 
1.35 tCO2e in 2013, with the total tourism emissions jumping from 600,000 tCO2e in 2010 to 
1,800,000 tCO2e in 2015 (Sharp et  al., 2016), and a young Reykjavik resident’s outbound foot-
print in 2017 as 2.96 tCO2e against much lower emissions resulting from local (1.08 tCO2e per 
capita) and domestic (0.45 tCO2e per capita) trips (Czepkiewicz et  al., 2019). In the finnish case, 
an average household’s leisure footprint was estimated as 1.09 tCO2e for outbound tourism, 
0.27 tCO2e for domestic second home tourism and 0.18 tCO2e for other domestic tourism for 
the year 2012 (Adamiak et  al., 2016). In the case of the Antarctic (Cordero et  al., 2022), black 
carbon concentration has been found to be relatively higher at the popular cruise spots and 
the union Glacier, which also hosts a runway, causing negative effects on the snow cover and 
its albedo.

On the mitigation side, most recent studies have focused on the “myth” of polar tourism to 
promote pro-environmental behavior. font and Hindley (2017) and Hindley and font (2017, 
2018) highlight the psychological complexities behind achieving pro-environmental transforma-
tions among last chance tourists to Svalbard, Johnston et  al. (2014) show that a student trip 
to the Antarctic has had almost no influence on their environmental behavior, and Árnadóttir 
et  al. (2021) survey with Icelanders illustrates how physical geography can be a major deter-
minant of air travel dependency, and a high footprint, even if people have high awareness. 
Groulx et  al. (2019) and Miller et  al. (2020), on the other hand, show positive pro-environmental 
outcomes of last chance tourism among polar bear tourists to Churchill and Alaska, especially 
at the presence of place bonding or onsite education. These studies also link back to the last 
chance tourism paradox debates covered in the Climate Risk section, as, besides failures in 
transformations towards visitors’ climate-friendliness, additional emissions are also contributed 
through the rather long-haul trips needed for polar tourism.

Discussion and conclusions

Whilst the IPCC’s Sixth Assessment Report (AR6) has improved its spatial coverage of tourism 
issues, compared to that of the AR5 (Scott et  al., 2015), still some regions have been less 
included and destination-specific vulnerabilities as well as tourism’s contribution the global 
carbon footprint have received limited discussions (Scott et  al., 2023). As emphasized by Scott 
et  al. (2023); “(w)ith only 21% of published climate change and tourism literature in the AR6 
review period cited, tourism academics should elevate tourism content and engagement in 
future assessments.” Accordingly, this study presented an update of Demiroglu and Hall (2020) 



JOuRNAL Of SuSTAINABLe TOuRISM 1959

review on tourism and climate change in the polar regions, focusing on the latest research 
since the release of the AR5 and inclusive of the studies besides the Anglophone articles. The 
review concluded that the climate risk, rather than the carbon risk, of polar tourism is much 
widely covered by the literature, and more studies emerge at the intersections of these two 
risk categories, indicating the complexities and the significance of the adaptation-mitigation 
interplays. The amount of integrated impact assessments was also quite high, yet some impact 
types relevant to the region, such as extreme weather (e.g. at a time when Arctic cyclones 
and cruise tourism are expected to rise), sea-level rise and coastal change, biodiversity change 
(e.g. at the presence of iconic animals such as the polar bear and the penguin), oceanic 
changes, human health risks, and even social disruptions (at a time where tourism will need 
to co-exist with an ever-growing climate mobility in general), and their adaptations were barely 
covered.

On the carbon risk side, there was very little emission estimation studies across all scales 
and scopes (Gössling et  al., 2023), and the need for a consensus on tourism’s carbon accounting 
methodologies largely remains for a better understanding of its footprint and mitigation urgen-
cies (uNWTO, 2023). Our review also pointed out a certain lack of research on decarbonization 
in terms of technological advancements and policies, the latter of which is also reflected in the 
NDCs of the polar nations. These highest-level, yet limited or non-existing, commitments in the 
tourism context are also a major gap from a climate risk perspective for the polar nations, 
except partially for Chile and Argentina, despite tourism being one of the key economic sectors 
for adaptation priority according to a global assessment of the 164 NDCs by the uNfCCC (2021). 
The supranational governance and the extra-continental system of Antarctic tourism makes such 
policy needs even more challenging, with almost no coverage of tourism vulnerabilities under 
the Helsinki Declaration (Antarctic Treaty, 2023).

Regarding regional coverage, besides the need for destination and tourism sub-sector specific 
studies, some polar nations are almost completely missing from the post-AR5 climate change 
and tourism literature. While this may be due to the relatively less polar relevance in terms of 
the tourism offer, some may be lacking the capacity to yield research. for instance, the reason 
for a minimal coverage on Sweden could be due to its relatively less polar attractivity, despite 
the country’s recent Arctification efforts and trends including the tourism industry (Marjavaara 
et  al., 2022). On the other hand, the almost non-existing research for the faroe Islands could 
be due to its own limited scholarship capacity, but its physically and socioeconomically 
climate-vulnerable position and fossil-intensive air/sea-based touristic accessibility call for research 
and outreach. Likewise, although recently emerging and relatively small-scale (Boekstein, 2014), 
South African gateways to the Antarctic also need further academic attention, especially given 
the carbon risks.

As for the geobibliography methodology used in this study, more standards, especially in 
terms of the “spatialization” challenges, need to be introduced to ease a universal adoption. 
The POLTOuR app, on the other hand, will be collaboratively updated as new research arrives 
and upgraded in line with the rapidly evolving technologies in GIS and AI, the latter of which 
can also help serve with a more enhanced and seamless survey on the research domain. 
Moreover the experience design is to be improved for a broader user typology beyond the 
research community. In this respect, the VR component will be one main focus to better serve 
for edutainment to the wider public. ultimately, the tool is intended for the use of academic 
research as well as to benefit the policymakers and businesses in exploring comparative cases 
of climate change risks and taking on sustainable development actions that can help all com-
ponents of the tourism system.

Disclosure statement

No potential conflict of interest was reported by the author(s).



1960 O. C. DeMIROGLu eT AL.

Funding

Svenska forskningsrådet formas.

ORCID

O. Cenk Demiroglu  http://orcid.org/0000-0001-7012-4111
Dorothee Bohn  http://orcid.org/0000-0001-9939-2048
Halvor Dannevig  http://orcid.org/0000-0002-7648-4166
C. Michael Hall  http://orcid.org/0000-0002-7734-4587
Christy Hehir  http://orcid.org/0000-0002-8802-7990
Linda Lundmark  http://orcid.org/0000-0002-3026-1477
Robert O. Nilsson  http://orcid.org/0000-0002-2811-6369
Julia Olsen  http://orcid.org/0000-0003-4507-6503
Kaarina Tervo-Kankare  http://orcid.org/0000-0003-1518-794X
Marisol Vereda  http://orcid.org/0000-0003-1157-2971
Johannes Welling  http://orcid.org/0000-0002-2541-5574

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	A virtual geobibliography of polar tourism and climate change
	ABSTRACT
	Introduction
	Study area
	Methods
	Results
	Climate risk
	Carbon risk

	Discussion and conclusions
	Disclosure statement
	Funding
	ORCID
	References