Application of Holiday Climate Index (HCI): Urban to Potential Alternative Tourism Attractions

The climate is an important variable for the tourism sector since it influences the travel period, duration of stay, and the type of activities that can be engaged in. The global climate crisis will have inevitable impacts on the tourism sector as many others. One of the most extensively discussed impacts on tourism in the literature is heat stress and relatedly changing climatic comfort at tourism destinations. The change in comfortable and suitable climatic conditions is expected to shift tourism seasons and popular destinations from overheated locations and time periods to more preferable ones. These alterations are critical and might be devastating specifically for tourism-dependent economies. Therefore, it is vital to assess the variations in climatic conditions and take adaptation actions. Based on this necessity, this study aims to analyze the climate change impacts on tourism climate comfort by utilizing Hol-iday Climate Index (HCI): Urban and addressing the alternative tourism at-tractions for adaptation. Türkiye is one of the most popular and most vulnerable tourism destinations because of its exposure to heatwaves, especially in the summer period. This study focused on Denizli Province, an alternative tourism destination, to determine its potential to have a role in adaptation. The analysis (HCI: Urban) is conducted for 1971-2000/reference year, 2023-2050/medium-term projections, and 2070-2098/long-term projections for two different scenarios; RCP 4.5 (moderate impact) and RCP 8.5 (high impact). To compare the spatial distribution of comfort levels and evaluate the alteration, ArcGIS software is operated. The results present that there are potential alternative tourism attractions in different locations and different seasons in Denizli which


Introduction
The impacts of climate change are projected as high temperatures, rising sea levels, increasing the severity of extreme events, and decreasing precipitation (IPCC, 2022).Since climate has significant impact on destinations' attractiveness, tourism activities and tourist decisions such as travel period and duration, climate change is a major challenge of future of the tourism (Smith, 1993;Uysal et al., 2008;Chen et al., 2017).Moreover, climate change impacts are expected to cause serious threats to tourism infrastructure, assets, natural resources, and the health of tourists (Dube & Nhamo, 2018;Jarratt & Davies, 2020;Pathak et al., 2021).One of the most extensively discussed impacts on tourism in the literature is heat stress and relatedly changing climatic comfort at tourism destinations.The change in comfortable and suitable climatic conditions is expected to shift tourism seasons and popular destinations from overheated locations and time periods to more preferable ones.Consequently, the tourism demand and tourist preferences are likely to alter in terms of destinations, seasons, and tourism types.These alterations are critical and might be devastating specifically for tourism-dependent economies (Tranos & Davoudi, 2014).Furthermore, the severity of impacts depends on various factors such as geographical location, socio-economic vulnerability, exposure, and the adaptive capacity of the destination.In other words, the effects are projected to vary among destinations.Consequently, there is a high possibility that some destinations will gain more tourism demand and others will lose their leading position (Pang et al., 2013;Scott, 2021).In any case, it is critical for destinations to adapt to the new dynamics and trends in global tourism for sustainable responses.The infrastructure and tourism services need to be improved to manage increasing demand in different destinations and shifting seasons.Also, alternative tourism attractions and activities need to be promoted and enhanced to prevent demand loss (Aygün Oğur & Baycan, 2023).Therefore, it is vital to assess the variations in climatic conditions and develop adaptation strategies.
The prominent subject in tourism and climate change research is the change in comfort levels based on increasing temperatures.As a result of increasing temperatures and heatwaves already warmer destinations are expected to get higher temperatures that threaten tourists' health and create uncomfortable outdoor thermal conditions.On the other hand, cooler destinations would have more pleasant and warmer weather conditions which enhance the attractiveness (Carrillo et al., 2022;Faraj et al., 2023).The increasing temperature is also the main reason for seasonal shifts.The tourism season might be prolonged due to warmer winters and summers may lose their popularity.The shoulder seasons A. Aygün Oğur DOI: 10.4236/cus.2023.113026499 Current Urban Studies (spring and autumn) are expected to become the most suitable for tourism and outdoor activities in most of today's popular destinations (Bafaluy, 2014;Miszuk et al., 2016).The Mediterranean region which is the leading tourism destination in the world having more than 30% of international tourists is at the hotspot (UNWTO-UNEP- WMO, 2008;UNWTO, 2023).The region has the highest risk of increased temperature especially in the summer period.The projections show that the Mediterranean region may encounter significant impacts on tourism in terms of changes in tourism flows, periods, and the number of visitors (Hein et al., 2009;Demiroğlu et al., 2020;El-Masry et al., 2022;Aygün Oğur & Baycan, 2023).Moreover, IPCC addresses tourism as one of the most impacted sectors in Europe (Kovats et al., 2014).
Türkiye is located in the Mediterranean region and hosted more than 50 mil- ism demand and altered seasonality.Besides extreme climate events and sea level rise, the main reason for that is overheating and more frequent and severe heatwaves.According to recent studies, the south and west coasts of Türkiye will experience a dramatic decrease in comfort levels in summer and an increase in shoulder seasons and winter.Moreover, the comfort levels of destinations in the inner land will not change as drastically as the coastal part in the popular tourism seasons.These studies have two perspectives; one defines critical risks for certain regions whereas the other highlights the opportunities in alternative destinations and seasons (Şenerol, 2010;Somoncu, 2018;Şensoy, 2020;Demiroğlu et al., 2020;Aygün, 2021).Most of the studies on the thermal comfort of tourism destinations in Türkiye either have an upper-scale perspective that covers multi-destinations/whole country or focus on the most popular coastal destinations (Demiroğlu et al., 2020;Adiguzel et al., 2022;Cinar et al., 2023;Aygün Oğur & Baycan, 2023).However, the alternative inner destinations are underestimated in tourism studies.The motivation for this study is derived from the need for a detailed assessment of these alternative destinations and to determine their potential for adaptation strategies.The first section after the introduction presents the climate comfort indices for tourism in the literature.The second part shows the characteristics and tourist attractions of the case study city, Denizli.The next section explains the methodology in detail and data sources.The following section reveals the results of the application of the HCI: Urban.The final section provides the conclusion and discussions.

Climate Comfort Indices for Tourism
Climate has always been an important variable in tourism research.It has a role in tourism motivation, destination choice, activities, the image of the destination, and the overall satisfaction of tourists (Kozak, 2002;Yiamjanya & Wongleedee 2014).As an early attempt, the impacts of various climatic variables on tourism activities were systematically assessed within a single index by Mieczkowski (1985).Hein et al. (2009) in Spain or Aygün Oğur & Baycan (2023) in Türkiye.
The results of these studies revealed a similar trend to previous continental studies.Moreover, there are city-specific TCI applications such as El-Almain in Egypt or İzmir in Türkiye (Adiguzel et al., 2022;El-Masry et al., 2022).These studies confirmed the findings of previous upper-scale studies on the shift of the peak tourism season.Although TCI is widely used in the literature, it is criticized in many aspects.First, its rating system and the weighting of variables are criticized for being subjective.Second, it generalizes tourism activities however, different tourism types require distinct evaluations.Finally, its resolution is low since it uses monthly data instead of daily or hourly data (Scott et al., 2016).
The Beach Comfort Index (BCI) was launched to assess the climatic comfort conditions of beach resorts in South Africa.In this index, the thermal conditions were calculated based on the human energy balance.Consequently, "beach day" and "beach hour" terms were introduced to tourism literature (Becker, 1998).
Another beach tourism index; the User-Based Beach Climate Index was produced by modifying TCI.This index combined thermal sensation and bathing temperature with climatic variables defined in TCI.The index was based on questionnaires carried out world's most popular beach tourism destinations; Wales, Malta, and Türkiye.It also changed the weighting system of TCI by prioritizing climatic variables based on questionnaire outcomes (Morgan et al., 2000).
Another tourism-type-specific tool Climate Index for Tourism (CIT) was created by de Freitas et al. (2004) to analyze the thermal, esthetic, and physical characteristics of climate in terms of its suitability for 3S tourism.This index focused on coastal regions and was produced by the variables collected from the case areas.It defined thermal comfort as a function of thermal (ASHRAE thermal sensation scale), esthetic (cloud cover), and physical (wind and precipitation) attributes.This index was produced to overcome the deficiencies of previous indices and provide an empirically tested and theoretically accurate method (de Freitas et al., 2008).Following this, Yu et al. (2022) (Matzarakis et al., 1999).Matzarakis (2007) developed an integral approach to tourism climate comfort indices by utilizing PET as a thermal facet and integrating it with aesthetic and physical conditions.Lin and Matzarakis (2011) utilized PET with hourly climate data in their tourism study on temperate and (sub)tropical regions.The results of this analysis inform tourists about the bioclimatic conditions of destinations.This methodology has been conducted in case studies from different countries (e.g., Gulyas & Matzarakis, 2009;Farajzadeh & Matzarakis, 2009;Esmaili et al., 2011;Matzarakis & Nastos, 2011;Çalışkan et al., 2012;Khoshdel et al., 2021;Mazloom et al., 2023;Shevchenko et al., 2023).

Holiday Climate Index (HCI)
The Holiday Climate Index (HCI) is a prevailing and widely used index in climate change and tourism literature.Regarding the criticisms of the methodologies and outcomes of the previous climate change and tourism studies, HCI aims to develop a new approach to better understand the climatic preferences of tourists and thresholds.Specifically, the HCI was proposed to overcome four main deficiencies of TCI.First, TCI is criticized for having a subjective weighting and rating system.In HCI, the weightings of climate variables were derived from the tourism literature on tourists' preferences to reduce the subjectivity of TCI.indices that are produced for specific types of tourism increase the accuracy of the assessment (Yu et al., 2022).The significance of micro-climatic assessments is also emphasized in the literature in terms of their contribution to local adaptation strategies (Rutty et al., 2020;Aygün, 2021).

Managing Impacts on Climate Comfort
Climate change inevitably causes destination and seasonal shifts as summarized in the previous sections.How to manage these changes and maintaining the tourism economy is a major challenge for tourism destinations.Therefore, it is frequently discussed in the literature and strategic recommendations are provided.As Tompkins et al. (2005) state, risk management plans have critical importance in climate change adaptation.These plans need to be linked with other strategic and action plans.At that point, climate comfort assessments become significant to reveal the regions under risk and the potential opportunities.A comprehensive planning perspective is beneficial to manage the adverse impacts and risks.Jopp et al. (2010) provide a framework for regional adaptation that defines the climate change adaptation process.According to this framework prior to implementing the adaptation options, vulnerabilities need to be carefully defined, risks and opportunities need to be revealed and strategies to increase resilience and decrease vulnerabilities should be determined.Such an adaptation process has a sustainability perspective in its focus (Njoroge, 2014).Diversification of the market is one of the prominent strategies in adaptation to seasonal shifts and overheating (Becken, 2005).Marketing strategies need to be adjusted to the new conditions that occurred due to climate change.Alternative activities that are more resilient to climatic conditions can be an alternative to redirect the tourists.Also, tourists can be commutated to alternative locations and close by destinations that have more suitable climatic comfort Moreover, setting the opening and closing times of the activities and attractions according to the new conditions contributes to adaptation (Scott et al., 2009).In order to make an efficient adaptation plan, it is important to determine alternative opportunities for diversification both in terms of activities and destinations.In this sense, alternative destinations become prominent to assess their suitability for tourism activities and benefit for climate change adaptation.

Study Area: Denizli, Türkiye
Denizli is located in the southwest of Türkiye, close to the Mediterranean and  Although the valuable tourism inventory, Denizli is an underestimated destination that cannot compete with popular coastal destinations.It is clearly seen when the number of international, national, and total tourists are investigated in Denizli and Türkiye (see Table 1).Denizli receives more international tourists than domestic tourists.In 2016 and 2017 the number of international tourists decreased because of internal political problems in Türkiye.Excluding these years, there are no significant fluctuations in the number of tourists despite the increasing total number of tourists in Türkiye.Moreover, Denizli has a limited share in the total number of tourists coming to Türkiye and couldn't manage to increase its share in the tourism market.Only 1.09% of the total tourists visiting

Data and Methodology
In this study, the first step of regional adaptation framework provided by Jopp et al. (2010) is assessed for the case study region.In this framework the initial stage is defining vulnerabilities, risks and opportunities.Therefore, this study focuses to reveal vulnerabilities, risks and opportunities in terms of thermal conditions of the alternative destination.To assess the suitability of climatic conditions for tourism activities in the future in Denizli, the Holiday Climate Index (HCI): Urban is deployed.There are two major factors in determining HCI: Urban as the analysis method of this study.The case study area has both urban and rural settlements.The accuracy of the HCI: Urban method is tested previously by different case studies both in urban (Scott et al., 2016) and rural areas (Velea et al., 2022).Moreover, it is practical to adapt future climate projections to the index to estimate and compare climatic comfort.
HCI: Urban defines the climatic conditions that affect tourism activities in three facets; Thermal Comfort (TC), Aesthetic (A), and Physical (P).Thermal comfort is calculated by evaluating the daily maximum temperature (˚C) and mean relative humidity (%).The most recent approach to calculating the cumulative impacts of temperature and humidity on thermal comfort is Humidex (Rutty et al., 2020).This approach is pursued in this study and TC is calculated with Equation (1).
The index defines a scale for each variable in the formula from 0 to 10.The overall rating of the destination is calculated with the equation and the results are scored from 0 to 100.The overall scores are categorized into 8; 100 -90 Ideal, 89 -80 Excellent, 79 -70 Very Good, 69 -60 Good, 59 -50 Acceptable, 49 -40 marginal, 39 -10 Unacceptable, and 9 -0 Dangerous (Table 2).
Initially, the tourism attractions, their geographical locations, and the tourism type information were mapped and the coordination of meteorological stations was added on ArcGIS.HCI: Urban ratings of Denizli is calculated for 3 time pe-  2) in the raster calculator.The results were compared and the opportunities and risks were defined at the regional scale for each season., 2015).
Since the model didn't supply the cloud cover data, sunshine duration (hour) data was used instead of this variable.

Application of HCI: Urban on Denizli
The HCI: Urban applied first the reference year , then projection years medium-term (2023-2050) and long-term (2070-2098), respectively, for each scenario as explained in the previous section in detail.The results of each application are separately presented.
The comfort levels are calculated for the reference year  for each month to compare the ranges all around the year.The results of HCI: Urban has a positive distribution all over the year.In all months the scores are "good" and above.The lowest comfort levels are observed during the winter period.There is no spatial difference in December and January which means that the entire city has the same climatic comfort level labeled as "good".In February the comfort level increases in the west half of the city where the city center is located.There is an increasing trend in the spring season when the "ideal" category is dominant.It can be said that spring has the highest comfort levels, especially in May.
In the summer period, the scores decrease from "ideal" to "excellent" and partially "very good" in July on the west side of the city.The summer period has the second-highest thermal comfort range.
Autumn has a diverse pattern from September to November.In September "ideal" and "excellent" scores can be observed.The high-elevated southern and northern regions have the highest scores in this month, yet the scores decrease in October.In November, an obvious decrease can be observed all around the city.
As seen in Figure 3, the HCI: Urban scores range between "ideal" and "good" and the city has a long pleasant period, especially between April and October.
Black dots on the maps show the locations of tourism attractions regardless of tourism type.
The second assessment is conducted for the medium-term projection year  (2023-2050) for both RCP 4.5 and RCP 8.5 scenarios.In the projected period HCI: Urban scores range from "ideal" to "good" in 12 months of the year.Winter has the lowest scores in both scenarios whereas January and February have higher scores with the RCP 8.5 scenario.The southern part has a higher score in both scenarios in the winter, specifically In January.Spring has the highest scores in both scenarios.For the RCP 4.5 scenario, April has the most suitable conditions all around the city while the scores slightly decrease in the western part in May.However, in the RCP 8.5 scenario, there is a sudden peak from February to March that continues in April and partially in May.The scores slightly decrease in the northwestern part of the city in May.The summer season has the second-lowest scores in both scenarios.There is a decreasing trend in comfort levels from June to August in both scenarios while small spots at high altitudes in the north and south have increased scores in August.There is a fluctuating pattern in the autumn in the RCP 4.5 scenario.In September the comfort level is "very good" all around the city while it increases to "excellent" in the north and the south, "ideal" in the west in October.However, it decreases to A. Aygün Oğur DOI: 10.4236/cus.2023.113026510 Current Urban Studies "very good" again in November.The RCP 8.5 scenario shows higher comfort levels of "excellent" and "ideal" in September and October respectively all around the city.However, the scores drop to "very good" in November.According to medium-term projections, shoulder season comes forward with the highest scores.The difference between the two scenarios is not significant in the summer season, however, distinctions can be observed in other seasons in favor of the RCP 8.5 scenario.However, the increase in comfort levels in these seasons is highly related to increasing temperatures and decreasing precipitations which might be a reason for some other climate change related problems.Therefore, it is critical to have a comprehensive perspective while providing strategies for sustainable tourism development.To sum up, it can be said that the most suitable tourism period is spring and autumn while the whole year has high comfort levels.Figure 4 shows the spatial distribution of HCI: Urban scores for each month and both scenarios.
Finally, the HCI: Urban analysis is conducted for the long-term (2070-2098) period for both scenarios.In both scenarios winter and summer seasons have the "good" category all over the city, however, in the RCP 8.5 scenario as a result of increasing temperatures, the score rises to "very good" except for southern and northern parts.In January southern part has higher HCI: Urban scores than the northern part in both scenarios.In February comfort levels in the northern part increase to "very good" as in the southern part.Spring has the highest scores in both scenarios while the RCP 4.5 scenario has a lower comfort level in March.In the RCP 8.5 scenario, March has an "ideal" score in the western part and "excellent" in the other regions.The comfort levels reach the highest in April and slightly decrease in May in both scenarios.In the summer season, the scores are "very good" in the southwestern and the northwestern parts while "excellent" in the eastern and middle regions in June in the RCP 4.5 scenario.For the same scenario, July and August are at a "very good" level.On the other hand, the scores for the RCP 8.5 range between "good" and "very good" with the lowest scores in July in the western part of the city.In autumn the comfort levels yield "excellent", "ideal" and "very good" in September, October, and November respectively in the RCP 4.5 scenario.However, it has a diverse pattern in the RCP 8.5 scenario.The western part has the lowest "very good" score and the eastern part has the "excellent" score in September.The southern part has the highest score of "ideal" in October while the "excellent" score in the midland and northern parts.The "excellent" can be seen in the western part and "very good" in the eastern part in November.In the long-term projections, shoulder seasons provide the highest comfort levels for tourism while winter and summer seasons do the lowest.However, the HCI: scores are between "good" and "ideal".The most suitable climate is observed in April in both scenarios.The spatial distribution of scores slightly differs in the RCP 4.5 scenario yet, in the RCP 8.5 scenario there is a diverse pattern around the city.The impacts of differences in the assessed two climate scenarios can clearly be observed in increased autumn-winter (November and December) scores and decreased summer (June and July) scores.In other words, the RCP 4.5 has lower winter and autumn scores and higher summer scores than the RCP 8.5 scenario.Figure 5 presents the HCI: Urban scores for both scenarios and each month of the year.

Results
Denizli has the opportunity to have good climatic conditions that are suitable for tourism activities in all projection years and scenarios.However, the scores  The first important result can be observed in seasonality.Denizli has "good" and above HCI: Urban scores in all assessments.Although this is an opportunity to extend the tourism season to 12 months, there are outshining seasons and months that have higher suitability than other periods.In the reference year the summer season has higher comfort levels while in the medium-term projection, it significantly decreases.The lower scores become more dominant in the long-term projections.The decrease in HCI: Urban scores are more obvious in the RCP 8.5 projections for summer.Therefore, it is possible to express that the summer season will lose its high suitability for tourism activities in medium-term and the long-term periods.The second critical result of the assessments is the spatial distribution of climatic comforts within the city.In warmer seasons like summer, the lower elevated areas, especially the western part of the city where the city center is located have disadvantages.On the contrary, the higher elevated regions like the northern and southern parts have higher suitability for tourism activities.The opposite is observed in the colder seasons, especially at the end of autumn and winter.
In these times, the lower altitudes have a more pleasant climate and higher scores than the rest of the city.This separation is more distinct in the RCP 8.5 scenario and more spatial diversification of scores can be seen in maps.In the long term the spatial variations increase.Diversification of scores around the city increases the opportunity to offer different alternatives in different climatic conditions.Moreover, extending the tourism season to 12 months is possible when these spatial patterns are considered in tourism development strategies.Defining these geographical regions helps to develop adaptation strategies to climatic changes.
To sum up, Denizli is expected to experience a shift in suitable climate conditions for tourism.However, in the projection years, all seasons have "good" and above scores.This is an advantage for 12 months tourism period.It has spatial variations in terms of suitability to tourism activities which is an advantage for diversifying the activities and locations.Moreover, the changes are sharper in the long term especially in the RCP 8.5 scenario.

Discussion
The results of the analysis show that Denizli has suitable climatic comfort conditions in the reference year and maintain that feature in the future under climate change scenarios.However, there are significant seasonality changes due to the impacts of climate change.In the summer season, the comfort level scores are high in the reference year but decrease in both scenario and future projection periods.Moreover, the shoulder seasons, spring and autumn, have the highest HCI; Urban scores in the future projections for both scenarios.Although the summer season still has pleasant climatic conditions, the higher scores in spring and autumn lead to a seasonal shift.The other important issue is the variety of spatial distribution of scores within the city.In the warmer seasons, the higher altitude regions have higher comfort levels and in the colder seasons, the lower altitudes have more pleasant conditions.The western part of the city has higher HCI: Urban performance in winter and autumn.On the other hand, the southern and northern parts of the city have comparatively higher scores in the summer months.Determining the geographical differences in the distribution of

Conclusion
This study assessed the change in climatic comfort levels due to climate change compared to the reference year in Denizli.The case study is an alternative tourism destination in Türkiye that has significant potential with its attractive tourism assets.The results reveal the positive climate comfort conditions in Denizli in both the reference year and the projected years.In tourism planning, the high comfort levels are an advantage to address Denizli as an alternative.However, the most suitable season shifts from summer to shoulder seasons, and the comfort level distribution varies within the city.These insights are significant to have an effective adaptation plan.This study is unique for focusing on an alternative tourism destination instead of the most popular ones to reveal the options for sustainable tourism development.Moreover, it is important to address alternative regions within the city that have higher climatic comfort in specific seasons.
This study provides a baseline for the strategic development of tourism in Türkiye to manage adaptation to climate change impacts.It also draws a roadmap for the future of Denizli's tourism and defines the critical regions that have opportunities for different time periods and seasons.
lion tourists in 2019.The number of tourists decreased over the past 2 years due to Covid-19 measures, however, it increased in 2023 and reached 20 million in the first half of the year (TurkStat, 2023).Tourism is one of the most important sectors in the country's economy since it is a source of foreign currency earnings.Türkiye hosts the highest number of tourists in the summer season due to its well-known coastal destinations located on the Mediterranean and Aegean shores.Therefore, pointing out sea-sand-sun (3S) tourism and the pleasant weather as the main attractiveness of Türkiye tourism would be accurate.Climate change is a crucial phenomenon that threatens the strongest attribute of Türkiye's tourism in global competition.Studies focusing on tourism and climate change in Türkiye revealed that the coastal cities may lose their popularity in the future.The most mentioned impacts are a decrease in international tour- increased the resolution of CIT by using hourly climatic data and called this new index the Modified Climate Index for Tourism (MCIT).They conducted a comparative case study in Alaska and Florida and forecasted future trends based on the past 50 years' climate variables.The results showed increasingly favorable conditions for Alaska and a decreased climatic comfort in Florida due to increased temperatures.The index was presented as a quantitative tool to model climate change impacts.These indices are important for assessing the comfort level change for a specific tourism type and specific region in a certain time period.
Second, TCI doesn't regard the potential for an overriding impact of physical climate factors such as rain and wind.In this sense, HCI uses the conceptual frame designed byde Freitas et al. (2008) which is based on thermal, physical, and esthetic characteristics of the climate.The overriding impacts of physical characteristics (rain and wind) are accounted for with this conceptual frame.Third, TCI is criticized for using monthly climatic data because the decision-making of tourists is not overly affected by it.The monthly climatic data has a low resolution for tourism activities.Therefore, daily data was used to increase the resolution.Finally, TCI is a single index for all types of tourism activities and destinations.However, climatic requirements vary for different tourism destinations and activities.In order to overcome this disregard, two major segment of tourism is taken into consideration for HCI and two different formulas were defined for different tourism types.HCI: Beach was provided for climatic comfort assessment of 3S tourism destinations while HCI: Urban was for other open-air tourism activities(Scott et al., 2016).HCI has been used extensively instead of TCI since HCI has more accurate results with tourist preferences.Yu et al. (2022) utilized multi-scale HCI to determine the future distribution of tourism climate resources in China.In line with previous studies, they determined certain advantages for today's climate-limited regions and high risks for popular city destinations.Samarasinghe et al. (2023) assessed the correlation between HCI scores and tourist arrivals in Sri Lanka.They concluded that the relationship between HCI and tourist demand changes depending on the origins of tourists.Hasanah et al. (2020) com-A.Aygün Oğur DOI: 10.4236/cus.2023.113026503 Current Urban Studies pared Temperature Humidity Index (THI), TCI and HCI and investigate their correlation with tourist preferences in Indonesia.They concluded that HCI is the most accurate method among these three in a tropical destination.Velea et al. (2022) confirmed the validity of HCI: Urban in rural areas by correlating tourist overnights and HCI: Urban scores.The case studies revealed that different indices give the same direction for the trend in climate comfort changes however, the intensity of change varies among them.Moreover, market-specific Figure 1.Location of Denizli.

Figure 2 .
Figure 2. Distribution of tourism types in Denizli (Source: Pamukkale University, Faculty of Tourism).
riod.The reference year represents the current climatic comfort conditions in Denizli.The projections are displayed for two different time periods; the medium-term (2023-2050) and the long-term (2070-2098).In projections, two different IPCC scenarios were adapted to the study.The first one represents the intermediate scenario RCP 4.5 that keeps global temperature increase below 2˚C as intended in the Paris Agreement.The second one represents the worst-case scenario RCP 8.5 which is a low effort to decrease global emissions and global temperature rising to almost 4˚C.The meteorological data (temperature, precipitation, wind speed, sunshine, and humidity) of each month, time period, and scenario were mapped by using spatial analysis tool and interpolation.The thermal comfort was calculated by utilizing Equation (1) by raster calculation.Finally, for each month of the year, HCI: Urban scores were evaluated and mapped in ArcGIS for 3 time periods and 2 scenarios by utilizing Equation (

Figure 4 .
Figure 4. Distribution of HCI: Urban ratings for the medium-term projection year (2023-2050) with the RCP 4.5 and the RCP 8.5 scenarios.
change among seasons in each time period assessment which may have an impact on the preferences of tourists.The climate comfort levels increase in the winter season and decrease in the summer season in both projected years compared to the reference year.The comparison of the HCI: Urban scores in the reference year, medium-term and long-term projections reveals critical issues for tourism.The most significant impacts are observed in seasonality and spatial differences of impacts.Moreover, the impacts of the RCP 4.5 scenario can be A.Aygün Oğur   DOI: 10.4236/cus.2023.113026512 Current Urban Studies

Figure 5 .
Figure 5. Distribution of HCI: Urban ratings for the long-term projection year (2070-2098) with the RCP 4.5 and the RCP 8.5 scenarios.
pared destinations in Türkiye by assessing the TCI change and revealed that the coastal line is more vulnerable and loses its pleasant climatic conditions.However, the inner cities including Denizli had better performance in all seasons compared to the coastal part.Therefore, the study suggests a detailed assessment of the inner cities to reveal their potential.In this study, a detailed assessment is conducted on Denizli and the results approved the previous one.The results of the study clearly show that Denizli has the potential to be an alternative destination.In the summer period, places that have comparatively better conditions can be promoted as an alternative to the other popular destinations.Moreover,Demiroğlu et al. (2020) used HCI: Urban to assess climatic comfort level change in the Mediterranean region and revealed a dramatic decrease in the coastal line compared to the higher altitude regions.Parallel to that, in Denizli, there is a difference between higher and lower altitudes in terms of climatic comfort change depending on the season.It can be said that higher altitude regions in Denizli have a higher potential in the summer period while the lowers have in the winter period.The results are also compatible with the global trends revealed in previous studies.Climate change and tourism studies assert a decrease in the summer period and address shoulder seasons as the new peak period(Scott et al., 2016).Results show the same seasonality change for Denizli in medium and long-term projections.During the study, the major limitation has been the meteorological data.Since the cloud cover data has not been provided by the meteorological institute, the sunshine duration has been used for the aesthetic facet.This alteration has decreased the variety of regions and periods in terms of the aesthetic component since the sunshine hour is not as diverse as the cloud cover within the city.Moreover, this study only focuses on climate change impacts on thermal comfort levels and doesn't include any other future impacts of climate.In order to keep the scope of the study compact, the other impacts are not evaluated.Therefore, the results reflect a tourism development potential in the area.However, tourism development strategies should consider the climate change impacts on resources, people, natural areas, and disasters for sustainable and adaptive development.Research that brings different aspects of climate change together and conducts a comprehensive impact assessment is required for future tourism development.In this study, the importance of elevation in determining alternative tourism attractions has been addressed.For future studies, the eleva-A.Aygün Oğur   DOI: 10.4236/cus.2023.113026515 Current Urban Studies tion layer can be added to the analysis, and more detailed information regarding the morphologic characteristics of alternative regions can be provided.Moreover, this study only focused on the geographic locations of the attraction points regardless of their tourism type and infrastructure.In a future study, the tourist attractions should be compared considering the tourism type and the tourism infrastructure they have.Such an analysis would provide significant insights into the vulnerability and adaptive capacity of these regions to changing climatic conditions.
Denizli province in Türkiye, an underestimated alternative tourism destination, is selected as a case study due to its geographic location and variety of tourist attractions.Holiday Climate Index (HCI): Urban which is a con- The aim of the study is to analyze the climate change impacts on tourism climate comfort and address the opportunities in alternative tourism attractions A.Aygün Oğur   DOI: 10.4236/cus.2023.113026500Current Urban Studies for adaptation.

Table 1 .
Comparison of the number of tourists arrivals to Türkiye and Denizli.(Source:Ministry of Culture and Tourism).Türkiye arrived in Denizli in 2019.There are two major factors that limit the potential of Denizli.First, the tourism assets except Pamukkale are not well-known for which tourists prefer day trips from surrounding destinations instead of overnight stays in Denizli.According to visitor statistics, more than 2.5 million Culture and Tourism Directorate, 2023rkStat, 2020).This significant difference between arrivals to the accommodation facilities and the heritage visitors clearly indicates that Denizli is perceived as a "stop-by" destination.Second, Denizli has limited tourism accommodation capacity.It only has 233 accommodation facilities with 8572 separated units and 18,308 bed capacity (DenizliCulture and Tourism Directorate, 2023).Denizli has great potential with its already popular attractions and alternative tourism types that haven't benefited effectively yet.
The aesthetic facet represents the percentage of cloud cover Finally, the Physical is a combination of wind speed (km/h) and precipitation (mm).Regarding their impacts on comfort level, the variables are weighted.Thermal comfort has the highest weight at 40%, aesthetic facet at 20 %, and precipitation at 30 %.The calculation of HCI: Urban is presented in Equation (2).

Table 2 .
HCI: Urban rating system.The meteorologic data and climate change projections were obtained from the Turkish General Directorate of Meteorology.The climate projection model data for 24 meteorological stations were used for the variables in Table3.The climate projections were based on HadGEm2-ES Model, RCP 4.5 and RCP 8.5 scenario with a 20 km resolution, and downscales RegCM4.3.4 model (TGDM

Table 3 .
Meteorological variables used in the index.
On the other hand, the spring season has high climate comfort conditions in all periods.The scores increase from the reference year toward the long-term projections.Therefore, the seasonality shift Aygün (2021)insights into the spatial opportunities in tourism.Moreover, the results show that Denizli has high climatic comfort all around the year which creates an opportunity to extend the tourism season to 12 months.With this opportunity, Denizli can be promoted as an alternative destination to today's popular destinations which are expected to lose their pleasant climate conditions, especially in the summer.Therefore, it is important to promote these alternative destinations to attract the demand from unpleasant climate regions.The results of the study are in line with previous studies.Aygün (2021)com-