Regionalist principles to reduce the urban heat island effect

: Scientists, climatologists, and urban planners have started to recognize the importance of nature at two very different scales: the global (metabolic) and the local (liveability) scales. The regional scale is the one at which these macro and micro approaches overlap. Future predictions foresee an increase of more than 2450 million urban inhabitants by 2050, thus new balanced urban visions need to be developed in order to guarantee the sustainability of urban areas. The Urban Heat Island (UHI) effect is a climate phenomenon resulting from unbalanced urban design arrangements. This paper analyses several design principles proposed by the 1920s regionalists from the UHI perspective. The preservation of the regional geographical landmarks, the implementation of urban containment policies (limiting city sizes), the increase of greenery and the development of green multifunctional blocks would help reduce the UHI in future urban developments.


Introduction
Scientists, climatologists, and urban planners have started to recognize the importance of the role of nature at two very different scales. On the one hand there is a metabolic approach to sustainability, which highlights the fact that nature is no longer the endless city supplier of resources (food, water, fuel, etc.) and its insatiable waste and emission disposal sink [1][2][3][4]. Already at the beginning of the 1970s, the Club of Rome aimed to examine "the complex of problems troubling men of all nations" and identified the degradation of the environment and the uncontrolled urban spread as two of the eight major problems affecting our societies worldwide, and carried out a study on nature's limits in order to define the so called "state of global equilibrium" [1]. Also in the 1970s, several professionals formed multidisciplinary teams for the development of integrated and sustainable landscape designs [5]. Up to now, urban planners continue to highlight the indisputable role of nature in urban planning processes, emphasising the metabolic approach [2][3][4]. In our globalized and interconnected world, this metabolic approach analyses the role of nature at a planetary scale aiming at promoting more rational transportation and supply/consumption patterns. On the other hand, the role of nature at the city scale is also being examined: pollution, the effects of the urban heat island, and endless transportation journeys inside cities threaten to jeopardize the liveability of many modern cities. The answer to most of these issues, which considerably deplete the comfort of cities, is most often to create greener cities. More specifically, at the local level, green infrastructure plays a provisioning (such as food and water), supporting (habitat, nutrient, water cycling, etc.), regulating (climate, air quality, soil quality, etc.), and cultural (recreational, educational, etc.) role [6].
Agrarian societies relied on the large energy and material flows of the rural regions around the cities, creating a "concentric hinterland" around an urban nucleus [7], the natural environment background remaining "unaltered". In turn, the evolution towards modern cities has altered that the exacerbation of the UHI). At the local scale, reaching a regional balance would mean achieving a balance between compactness and sprawl, thus ensuring that cities are green enough to prevent them from overheating but still dense enough to ensure efficient transportation and infrastructural systems. Mumford L already developed in the first half of the 20th century the concept of regionalism to ensure a rational, balanced, and sustainable urban development [28]. This paper analyses how the regionalist principles suggested by Mumford L. can contribute to the reduction and mitigation of the urban heat island (UHI). It is the replication of sustainable and balanced regional patterns, which will guarantee global sustainability. More specifically, the reduction of the UHI effect will not only increase the comfort in cities and reduce the excess mortality, but will also reduce the energy consumption and even contribute to the reduction of global warming. Researchers reveal that the contribution of UHI to global warming might range from 2 to 4% [29].
Mumford highlighted the importance of the geographical factors (terrain, climate, and soil) which actually define regions [30]. Regionalism precisely revolves around three concepts: idea of restoring nature through the adaptation of new technologies (neotechnics), the principle of restoring the nature's influence on culture through literature, architecture, and the built environment (organicism) and the concept of recovering the human-scaled, civic-minded social order through the community. Thus Mumford's regionalism was not only rooted in environmental/scientific principles, but also had literary, political, and social implications [28,31]. The neotechnics and organicism premises strongly connect the natural and the built environment. The recovery of the harmony between these two worlds is actually the key for the reduction of the UHI effect and this is how the idea of analysing the implications of regionalism on UHI mitigation was born. The UHI phenomenon varies in time and is affected by the physical geography and by the built environment at the metropolitan region scale [32]. UHI varies depending on the physical properties of the surfaces, urban configuration, regional meteorology, and localized microclimate [22,33]. The first two parameters are related to the city itself, and the last two are specific to the region.
The aim of this investigation is to answer to the following research questions: -Do the regionalist principles developed by Geddes and Mumford still apply to the 21st century urbanization context? -If so, how would the implementation of these regionalist premises affect the UHI phenomenon?

Materials and Methods
This paper evaluates Mumford's regionalist principles to test the validity of design and planning guidelines that help to define regional balance and equilibrium between compactness and sprawl in order to reduce UHI formation. With this purpose, first a qualitative analysis was completed, with overlapping and cross checking at three different scales (regional, urban, and neighbourhood) of the regionalist design principles with the UHI related literature, in order to be able to conclude whether the implementation of those regionalist design principles would play a positive or a negative role in the formation of UHI. The analysis of the regionalist principles was conducted through the revision of the original regional literature [28,30,31,[34][35][36][37], as well as through the study of recent studies and reinterpretations of this urban theory [3,7,38].
Furthermore, a quantitative analysis of the garden city models-which were presented by regionalists as the optimal urban planning forms to reach regional balance-was completed. The purpose of this quantitative analysis is to determine if the ratios and benchmarks put forward by the regionalists would still be implementable-with a positive effect on UHI formation-. A comparison was carried out between the city size, population density, and greenery standards of the regionalist city model (the garden city), existing urban ratios, and UHI principles. The comparative analysis of these ratios allows us to determine whether these are alignable or not, and thus whether the garden city model is still applicable or not (Figure 1), and to what extent.

Sense of Place/The Concept of Nature
As highlighted by Luccarelli, Mumford saw the basis of regionalism in the literary and artistic imagination rather than in a political idea. Mumford proposed the recovery, identification, and promotion of natural geographic features at the regional level-through scientific and imaginative exploration-in order to cultivate the so-called "sense of place" [28]. These regional geographic elements often represent natural regional cooling sources: mountains, forests, pastures, rivers, sea side, etc. The recommendation to enhance and preserve specific large-scale regional geographical elements is also often prescribed to mitigate the UHI effect. Climatologic plans typically foresee the creation of wind paths connecting these natural cooling sources to the urban hotspot areas.
It is the case of the Climate Analysis Map for the Stuttgart region in 2008 [39] which looks at maximizing the cooling capacity of the hilly forests surrounding the city, or the case of the climate maps of Arnhem in The Netherlands [40] which identify specific parks and forests outside the city as fresh air production zones to be preserved and or enhanced. In Tokyo the natural cooling source to be enhanced and preserved is the Tokyo Bay, and the renovation plans of the Tokyo Station vicinity aim at maximizing the cool wind paths connecting the cool bay breeze with the urban hotspots [41]. Finally, rivers often also act as the best wind paths to channel sea breeze into cities [42]. Vapour pressure and relative humidity on adjacent constructions vary depending on their orientation [43].

Regional Economy
Geddes and Mumford [3,7,28,38] highlighted that capitalism and globalization promoted the interdependency and specialisation of regions, ultimately increasing the destabilisation of the natural metabolism balance of regions. One of the pillars of their regionalism concept was the promotion of self-sufficient forms of metabolic structures. As expressed by Luccarelli, Mumford's regionalist concept aimed at reaching a balance between human activities (including agriculture and industry) and regional realities, thus a balance between population and resources, vegetation, and animal life. The Congress for the New Urbanism also views metropolitan regions as fundamental economic units, and highlights the importance of the relationship and interconnection between the metropolis and its agrarian and natural landscapes [44]. In that sense The International Tripartite Conference on Urban Challenges and Poverty Reduction in African, Caribbean, and Pacific countries also expressed the potential of urban and peri-urban agriculture and forestry to improve the urban adaptation to climate change [45,46]. The idea supporting regionally self-sufficient agricultural production, thus promoting local and varied crops and avoiding agricultural over specialization, can be considered as a contemporary translation of Mumford's regionalist concept.
Several UHI mitigation studies analyse the cooling capacity of agrarian fields. Irrigated agricultural fields can present air temperature differences of up to 3 • C with bare soil [15], and the overall surface temperature of crops is-in the case of the South Holland provincial parks-up to 5 • C less than the average surface temperature of built areas, however they are 2 • C higher than that of forests and up to 7 • C higher than that of large water surfaces during heat waves [47]. Hence, despite the fact that green and irrigated agricultural fields might have a cooling effect on the adjacent urban areas, they are not the coolest form of regional greenery. Thus the removal of forests for the increase of monocrop overspecialised agricultural land reduces the natural cooling capacity of the regions.
Further, crop cycles imply that at certain periods of the year, cropland is either not green, or not irrigated, reducing its potential cooling capacity, depending on the crop species. Thus, the reduction of regional agricultural specialisation (suggested by Mumford in his regionalism proposal), would on the one hand allow us to maintain other native land use cover present at a regional scale (such as forests or water surfaces), and on the other hand would promote the presence of different crop typologies, Sustainability 2017, 9, 677 6 of 17 with potentially different crop cycles, which would in principle reduce the surface affected during greenless periods.

Urban Containment
Geddes warned against the sprawl of British and North American cities, and referred to those as "conurbations" [34] anticipating what we could call the dilemma of modern urbanism. On the one hand, human concentration is not only desirable-to ensure activity (or positive collision) and exchange-but is also even critical to ensure the efficiency and sustainability of those exchanges. At an infrastructural scale, MacKaye-one of the fathers of regionalism-was extremely concerned by the planning of highway networks and their corresponding uncontrolled commercial strip developments, which precede residential and industrial sprawl, and in turn proposed the limitation of accesses to highways in order to create "townless highways" [48].
Since Geddes, MacKay and Mumford, urban planners, climatologists, and ecologists have preached against urban sprawl. Countries like France, Switzerland, England, and the Netherlands introduced borderlines in planning documents in order to preserve ecological conservation zones and to protect agricultural land, while stimulating new urban developments in areas served by public transport corridors and hubs. On the other hand, this "aimed" compactness or high density seemed to have its limits, since the largest cities would benefit from the creation of new green infrastructure, meaning that a certain reduction of density is thus also desirable ( Figure 2).

City Sizes and Population Densities for Regionally Balanced Environments
The regionalists already suggested the idea of urbanization containment. MacKaye compared suburbanization to the backflow of a water system and highlighted the importance of limiting growth (in his own words, the population flow) and referred to the need to definite boundaries [35]. Limiting growth is also a part of the UHI mitigation strategy. Several studies relate the maximum UHI to the logarithm of the population of the analysed city, not only for European cities [49,50], but also for North American [49,51,52], Japanese [53][54][55][56], and South Korean [57] cities. Containing city growth was a concern not only for the last century's regionalists but also for UHI researchers.
In order to avoid city growth, the regionalists suggested the creation of autonomous garden cities in the countryside [58]. MacKaye and Mumford used the garden cities as examples. The model used was the one developed by Howard E but they also referred to built cases such as Letchworth and Welwyn in England and Radburn in New Jersery, United States, and identified the uncontrolled metropolitan growth of New York or Blanktown as examples to avoid [35]. Mumford proposed the garden city models, such as Sunnyside-from Henry Wright-as examples for the use of new technologies of that time (hydro-generated electric power and automobiles) to revert the harm done by the industrial cities to the environment [36,37].
The garden city models used as examples of regionally balanced urban environments can be assimilated to the "sparsely built" and to the "open low rise" local climate zones developed for the city of Vancouver [58]. In this study, 17 different local climate zones are defined, each with specific arrangements of built structures, surface cover, and human activity, which makes them present different UHI behaviours. In Vancouver, during calm clear evenings in the month of March 2010, the "sparsely built" and "open low rise" typologies presented lower temperatures than the "compact high rise", "open high rise", and "large low rise" typologies. Thus a reduction of the percentage of impervious surfaces, an increase of the surface greenery, and a reduction of the built mass which actually characterize the garden city urban design proposals, would contribute to the reduction of the formation of UHI. The surface cover analysis of sixteen cities in the region of North Brabant in The Netherlands also reveals that the small urban centres present better thermal behaviour than the larger urban city centres (with more impervious areas and lower Normalized Difference Vegetation Index-NDVI-), the majority of the analysed cities had surfaces below 20 km 2 and populations also below 50,000 inhabitants [59].
In such contexts, urban planners and climatologists can be tempted to seek an optimal city size and density. However, it seems quite difficult to integrate metabolic, economic, and climatologic parameters, with cultural, social, and historical parameters to arrive at such an optimum value. A quick overview of figures shows how important the differences between cities can be, and thus how sterile the use of global benchmarking can be.  Howard's ideal garden city would cover 6000 acres (that is 24.3 km 2 ) and would house around 32,000 inhabitants [60], which means that the average density for these cities would be 1316 inhab/km 2 . Letchworth which was founded in 1905, and which is actually the first garden city built in the world, covers 5500 acres (22.3 km 2 ) and has a population of 33 Figure 2. List of the references reviewed to complete the regionalist principles analysis and the Urban Heat Island related literature at the regional, urban, and neighbourhood scales.
Howard's ideal garden city would cover 6000 acres (that is 24.3 km 2 ) and would house around 32,000 inhabitants [60], which means that the average density for these cities would be 1316 inhab/km 2 . Letchworth which was founded in 1905, and which is actually the first garden city built in the world, covers 5500 acres (22.3 km 2 ) and has a population of 33,249 inhabitants [61], thus presenting an average density of 1491 inhabitants per sqm, similar to the ideal model defined by Howard. Welwyn, in which construction began 15 years later (in 1920), occupied 2377 acres (9.6 km 2 ) and until 1956 housed less than 19,000 inhabitants, far below the maximum population planned which was 50,000 inhabitants. Thus the actual density of Welwyn was 1979 inhabitants/km 2 for decades, below the level established as a reference of 5200 inhabitants/km 2 .
If we analyse "sustainable" city sizes shown as examples by regionalists, we realize the great divergence of sizes and characteristics. Baccini proposes "metabolic" urban designs to develop robust urban systems, and refers to the urban nucleus with populations ranging from 10-100 million inhabitants, with population densities ranging from 300-600 inhabitants/km 2 [7]. In turn, another regional pattern established as a reference of regional balance of another era (Early Bronze Age) is the tells landscape in the Khabur Basin (Syrian Jazira nowadays), with each tell covering more than 1 km 2 , and housing between 10,000 to 20,000 people, and each one managed other smaller tell distributes every 10 km [62]. Thus the different regionalist researchers state that cities with different city sizes and densities can be regionally balanced. "Sustainable" city size and density has to be established on a case by case basis, however the main message here is that regional balance can only be reached if the urban form is contained and planned. Urbanization cannot take place as the result of particular needs; it has to be the result of a regionally orchestrated plan.
Even though the main focus of the regionalists was not actually in the tools used to communicate, convince, or implement their planning principles, the rejection of Adam's Regional Plan of New York and Its Environs (RPNY) [63] did somehow open the debate regarding the manipulation of scientific arguments to defend a specific urban vision. Mumford actually denounced the use of empirical studies to narrow the depth of the urban planning discussion [28]. The post-war era was actually characterized by the technification of the urban planning discipline, which ended up pulling it out of the public debate [64]. The debate on the use of scientific findings to defend a particular urban vision is still in force; Echevarría Icaza L et al. investigated mapping strategies to suggest UHI mitigation measures accurate (and scientifically proven) enough to actually reduce the urban heat, and open enough to ensure their compatibility with other city priorities [65].

Greenery Standards
Regionalists' ideal garden city [60] establishes a total of 5265.5 acres (21.3 km 2 ) of greenery for a city of 6000 acres (24.3 km 2 ), so that around 87.8% of the city surface would be covered by different greenery typologies. Five thousand acres would be occupied by agricultural land, and the rest of the greenery would be located within the city area, as concentric garden rings: 5.5 acres of watered garden at the confluence of the boulevards, 145 acres of the Central Park encircled by the Crystal Palace, and finally the Grand Avenue which can actually be considered as an additional park of 115 acres (Figure 3). Considering a population of 32,000 inhabitants, in the city there would be a ratio of 33.6 m 2 per inhabitant. If we compare this ratio with the greenery thresholds established nowadays for different cities [66] such as Berlin (Germany), where the target is to have at least 6 m 2 per person [67], or Leipzig (Germany) with a target of 10 m 2 per inhabitant [68], the ratio of the garden city is more than three times the target of those cities.

The Neighborhood Scale
In order to reach a regional balance, regionalists suggested not only guidelines at the regional scale, they also envisioned the materialization of the smaller (neighbourhood) and larger (supra-regional/infrastructural) scales.
At the neighbourhood or community scale, the City Housing Corporation (CHC)-affiliated to the Regional Planning Association of America-attempted to build garden communities in Radburn and Sunnyside. In Sunnyside, streets and grids were already developed, and in order to create the communities a mix of housing typologies was proposed, ranging from row houses to apartment blocks with important interior gardens [91]. In Radburn the "super blocks" were developed, with large interior greenery and underpasses. We can find certain common aspects with the modernist post-war residential block prototype Unité D'Habitation or Cité Radieuse (in English "Radiant City") proposed by Le Corbusier in the 1920s, and built for the first time in Marseille (from 1945 to 1952), which actually became after the 1929 crash a theoretical reflection on the materialization of urban concentration, as well as a proposal for the achievement of a certain degree of self-sufficiency (with the incorporation of offices, supermarkets, bakeries, cafeterias, hotel restaurants, book shops, nurseres, gyms, small swimming pools, open air auditoriums, etc.). The model proposed the concentration of density in the block, to be able to vacate the surrounding space, allowing a total integration of the block within the surrounding nature. The materialization of residential blocks interspersed with greenery was executed in the Netherlands and in many other European cities after World War II to overcome the housing shortage. Many of these residential blocks have failed to reach the "self-sufficiency" principle which was associated with the original block design, thus questioning the whole urban concentration model.
Several researchers have proposed design renovation strategies to actually prove that these block typologies actually represent a viable model as long as they are appropriately renovated. The program proposals include the introduction of mixed uses within the blocks (child day care and cafeterias on the ground floor, offices on the lower floors, and a common terrace on the upper floor), a mix of housing typologies (to accommodate students, families, the elderly, etc.) and the introduction of greenery in new private and common terraces [92] (Figure 5).   Several researchers have proposed design renovation strategies to actually prove that these block typologies actually represent a viable model as long as they are appropriately renovated. The program proposals include the introduction of mixed uses within the blocks (child day care and cafeterias on the ground floor, offices on the lower floors, and a common terrace on the upper floor), a mix of housing typologies (to accommodate students, families, the elderly, etc.) and the introduction of greenery in new private and common terraces [92] (Figure 5). As far as the impact of these residential typologies on UHI is concerned, in The Netherlands, post war residential neighbourhoods seem to have a better thermal behaviour than conventional city centres [59,69], however, they could still benefit from the integration of greenery in the facades and rooftops, the use of highly reflective materials, and the creation of indoor cross ventilation [42]- As far as the impact of these residential typologies on UHI is concerned, in The Netherlands, post war residential neighbourhoods seem to have a better thermal behaviour than conventional city centres [59,69], however, they could still benefit from the integration of greenery in the facades and rooftops, the use of highly reflective materials, and the creation of indoor cross ventilation [42]-which are also part of the design proposal for the community creation-as these would have a beneficial impact on the reduction of heat accumulation at the building block size.

Discussion
Even though revisiting the regionalist principles is inspiring for the creation of design guidelines for reducing the Urban Heat Island in new urban developments, it is important to highlight that these are precisely only applicable in certain contemporary scenarios. Thus Mumford's concept of "reversal" is often no longer valid in the current context, since in the last 100 years automobile technology has in most cases only accentuated the ravages caused by the 19th century city that Mumford described in the 1920s, and thus in that sense the recovery of the garden city principles in an existing metropolis is no longer seems feasible. He referred to that "reversion phase" as "neotechnics". Even though in the last century technology (automobile, railways, airplanes, etc.) has not really changed-at the local scale-its efficiency (reduction of transportation times) and cost (these transportation means are now available to a much larger portion of the global population) have improved considerably involving social exchanges at the global scales. The local infrastructure that allows cars, trains, and airplanes to operate have pretty much remained unchanged, thus its direct impact at the local scale remains limited. In turn, the increase in its efficiency and costs have allowed the true globalization of the planet, enabling flights around the world in less than 24 h and more than 100,000 flights worldwide. To a certain extent we can establish that the evolution of these transportation means has been critical for the consolidation of capitalism and globalization, which are identified as the indirect but true causes of urban unsustainability by many urban researchers. To some extent, the increase of the automobile and air traffic, allows for perpetuating unsustainable production/consumption patterns, involving aberrant food, material and human transportation distances, hazardous agricultural specialization regional patterns, and inadmissible daily CO 2 emissions.
The UHI is aggravated by anthropogenic heat emissions, resulting from energy loss, and heating from commercial, residential, and transport sectors; heating from the industrial and agricultural sectors; and heating from human metabolism. Whereas in developing cities human metabolism is still a factor to be reckoned with, the contribution of the commercial, residential, and transport sectors increases rapidly alongside the increase in city level gross domestic product [73] (Figures 6 and 7). The anthropogenic heat emission patterns that have emerged have reached a truly global scale. some extent, the increase of the automobile and air traffic, allows for perpetuating unsustainable production/consumption patterns, involving aberrant food, material and human transportation distances, hazardous agricultural specialization regional patterns, and inadmissible daily CO 2 emissions.
The UHI is aggravated by anthropogenic heat emissions, resulting from energy loss, and heating from commercial, residential, and transport sectors; heating from the industrial and agricultural sectors; and heating from human metabolism. Whereas in developing cities human metabolism is still a factor to be reckoned with, the contribution of the commercial, residential, and transport sectors increases rapidly alongside the increase in city level gross domestic product [73] (Figures 6 and 7). The anthropogenic heat emission patterns that have emerged have reached a truly global scale.  As far as UHI mitigation is concerned, some measures can be introduced to palliate the UHI effect in existing cities, however others affect the structure of the city itself, which can only be implemented in urban areas built from scratch (not in existing ones). The UHI-related parameters affecting the structure of the cities are: the orientation of the streets [41] and the urban geometry (size and distance between buildings), which can actually be quantified by measuring the ratio of the height of the buildings by the width of the street [94] or the sky view factor (share of the sky observed from a point compared to the total sky hemisphere) [50,54,94].

Conclusions
The aim of this article is to answer two questions considering the regional territory principles and urban containment principles: Do the regionalist principles developed by Geddes and Mumford still apply to the 21st century urbanization context? If so, how would the implementation of these regionalist premises affect the UHI phenomenon?
The regional territory concept includes elements such as sense of place/the concept of nature and the regional economy. Enhancing and preserving large-scale regional geographical natural and/or green elements is still a very appropriate and much used approach to maintain quality of life at a As far as UHI mitigation is concerned, some measures can be introduced to palliate the UHI effect in existing cities, however others affect the structure of the city itself, which can only be implemented in urban areas built from scratch (not in existing ones). The UHI-related parameters affecting the structure of the cities are: the orientation of the streets [41] and the urban geometry (size and distance between buildings), which can actually be quantified by measuring the ratio of the height of the buildings by the width of the street [94] or the sky view factor (share of the sky observed from a point compared to the total sky hemisphere) [50,54,94].

Conclusions
The aim of this article is to answer two questions considering the regional territory principles and urban containment principles: Do the regionalist principles developed by Geddes and Mumford still apply to the 21st century urbanization context? If so, how would the implementation of these regionalist premises affect the UHI phenomenon?
The regional territory concept includes elements such as sense of place/the concept of nature and the regional economy. Enhancing and preserving large-scale regional geographical natural and/or green elements is still a very appropriate and much used approach to maintain quality of life at a regional scale. Reaching a regional balance between the population and resources, vegetation, and animal life has been a bigger challenge so far but also here the concept fits well in contemporary planning approaches.
From a UHI perspective, the measures that are part of "sense of place/the concept of nature" are often prescribed to mitigate the UHI effect. Climatologic plans typically foresee the creation of wind paths connecting these natural cooling sources to the urban hotspot areas.
However, the need to have a self-sustaining regional economy may require an agricultural specialisation that may put pressure on other native land use cover present at a regional scale (such as forests or water surfaces). This will not automatically help the reduction of the impact of the UHI.
The urban containment concept includes elements such as garden cities, size of the cities, greenery standards, and the neighbourhood scale. Attempts to limit the growth of the cities' actual footprint is still relevant in present times. With the current growth of the urban population it will not be possible to achieve such an objective by using the densities proposed in the original garden city concepts. The opposition to the scientific underpinning of urban plans by the regionalists is in the current data-driven society a lost cause. The need for citizen involvement and public debate on spatial plans on the other hand is growing. The greenery standards applied in such garden cities are far from what is realistic in current cities. However, the materialization of residential blocks interspersed with greenery did find a broad acceptance.
From a UHI perspective, garden cities would perform best, the use of scientific findings is essential, greenery standards can be useful to reduce the impact of the UHI, and the application of greening principles on a neighbourhood scale is recognised as an indispensable instrument in climate proofing cities.
Overall we can conclude that most key elements of the regionalist concept are still very much relevant today and would indeed help to reduce the impact of the Urban Heat Island. The garden city idea requires a revision.