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Blue space

March 03, 2023

This article is about blue space in urban planning. For the software, see Bluespace (software).

Blue space (also referred to as blue infrastructure) in urban planning and design comprises all the areas dominated by surface waterbodies or watercourses. In conjunction with greenspace (parks, gardens, etc. specifically: urban open space), it may help in reducing the risks of heat-related illness from high urban temperatures (urban heat island).[1] Substantial urban waterbodies naturally exist as integral features of the geography of many cities because of their historical development, for example the River Thames in London.[2]

Downtown Green Bay City Deck along the Fox River, Wisconsin
Chattanooga waterfront - panorama
View of Brooklyn Bridge Park from Manhattan Bridge
Christmas2004inMedellín, Colombia
Playa de la Caleta en Cádiz - panoramio
Longfellow bridge Boston

Accessible blue spaces can help revitalizing neighborhoods and promote increased social connectedness[3] as seen on waterfront renovation projects like the Chattanooga Waterfront (Chattanooga, Tennessee), the CityDeck in Green Bay, Wisconsin, or the Brooklyn Bridge Park in New York City,[4] further enhanced by waterfront festivals such as the Christmas lights in Medellin, in Colombia. Design guidelines promoting healthy buildings -such as, WELL -managed by The International WELL Building Institute™ (IWBI™),[5] or Fitwel -developed and managed by The Center for Active Design (CfAD),[6] recommend incorporating including and water features as a strategy to improve the health and wellness of the building occupants, and "the 9 foundations of a Healthy Building" -developed at Harvard T.H. Chan School of Public Health-,[7] also recommends indoor access to nature views or nature-inspired elements.

Because neighborhoods with access to attractive natural features are susceptible of gentrification,[8] the social benefits associated with waterbodies can be unequally distributed, with Environmental Justice areas lacking access to good quality blue spaces.[9]

Health benefits of blue spaces

Proximity to water bodies may bring some risks to humans, like water-borne diseases in drinking water,[10] flooding risks,[11] or drowning.[12] But scientific evidence shows that exposure to blue spaces is also associated with a variety of health benefits to those near water bodies.[13][14] This is described by marine biologist Wallace J. Nichols in his book Blue Mind.[15] Another of the mechanisms by which this phenomenon can be explained is by the Biophilia hypothesis developed by Edward O. Wilson. This theory states that humans have developed a strong connection with nature throughout their evolution that leads to subconscious seeking for natural environments, including green and blue spaces. Recent research has identified three main pathways that can further explain why proximity to green and blue spaces can be beneficial to health.

  • Mitigation addresses these health benefits in relationship to the physical improvements that natural environments bring to the built environment, such as reduction of urban heat island, traffic air pollution or traffic noise.
  • Instoration focuses on the promotion of physical activity and other positive outcomes associated with increased physical activity and social connectivity promoted by natural spaces.
  • Restoration explains how the non-threatening characteristics of the natural environments may reduce negative feelings and increase cognitive restoration.[16]

Effects of blue spaces on physical health

Increased physical activity

A variety of studies have found that people living near coastal areas, are less sedentary more likely to engage in moderate and vigorous physical activity adequate for health,[17] which could be explained due to the encouraging presence of walk paths along the coast. Another possible explanation is found in the aesthetical attributes of blue spaces that may motivate individuals to engage in physical activities on blue spaces.[18] But proximity to water bodies alone is not enough to promote increased levels of physical activity, as those bodies need to be accessible to people. A study focusing on teenagers found that those living near beaches that had a major road between their homes and the water body had lower levels of physical activity than those with a direct access to the beach.[19]

Reduced obesity

Blue spaces may reduce obesity as it promotes increased physical activity, and a study suggest that living far from green or waterfront in urban areas may increase the risk of obesity.[20]

Improved respiratory health

Living near blue spaces can improve the quality of life of people with respiratory diseases, such as asthma, which could be explained by the mists and sprays generated by the water movement [21] as shown on a study measuring the impact in health of green and blue spaces for those with chronic obstructive pulmonary disease (COPD).[22]

Effects of blue spaces on mental health

Improved overall mental health

Researchers found a reduction of psychiatric cases on people living near green or coastal areas.[23] Some of the studies found that ocean exposure or running along river helped war veterans suffering from PTSD.[24] Others found that engaging in water-related activities such as surfing can help coping with mental health issues and help developing self-confidence and self-reliance skills.[25] A large study looking at links between childhood exposure to blue spaces and adult well-being found that exposure to blue spaces in childhood was associated with better adult well-being.[26]

Improved mood and happiness

Exposure to blue spaces is also linked to increased happiness. A group of researchers studying the effect of green and blue spaces on happiness used a mobile app to track mood feelings of people when they were near water landscapes. The researchers found increased levels of happiness in people near water bodies.[27] Consistently with the findings focusing on physical health, the positive effects on mood associated to blue spaces seem to diminish as the distance between the residence and the water increases.[28]

Improved recovery from drug and alcohol addiction

Educational interventions in blue spaces - such as sailing - have been shown to have positive perceived effects on people undergoing drug and alcohol rehabilitation.[29]

Blue spaces quality assessment tools

In order to understand how blue spaces may influence health-promoting behaviours, a group of researchers that focuses on blue spaces has developed a set of novel tools specifically designed to quantify the quality and potential health benefits of these spaces, risks associated with their use, and environmental quality. [30] The BlueHealth Environmental Assessment Tool (BEAT) - enables comparable assessment of environmental aspects and attributes that influence access to, use of and health-promoting activities in blue spaces. The tool has been developed to be used by communities and urban/landscape designers.[31][32]

Blue spaces health effects assessment methods

Assessing the environmental benefits of a blue space intervention can be done by conducting a Health impact assessment (HIA).

See also

References

  1. ^ Gunawardena, K.R.; Wells, M.J.; Kershaw, T. (15 April 2017). "Utilising green and bluespace to mitigate urban heat island intensity". Science of the Total Environment. 584–585: 1040–1055. Bibcode:2017ScTEn.584.1040G. doi:10.1016/j.scitotenv.2017.01.158. ISSN 0048-9697. PMID 28161043.
  2. ^ Gunawardena, K.R.; Wells, M.J.; Kershaw, T. (2017). "Utilising green and bluespace to mitigate urban heat island intensity". Science of the Total Environment. Elsevier BV. 584–585: 1040–1055. Bibcode:2017ScTEn.584.1040G. doi:10.1016/j.scitotenv.2017.01.158. ISSN 0048-9697. PMID 28161043.
  3. ^ White, Mathew P.; Elliott, Lewis R.; Gascon, Mireia; Roberts, Bethany; Fleming, Lora E. (1 December 2020). "Blue space, health and well-being: A narrative overview and synthesis of potential benefits". Environmental Research. 191: 110169. Bibcode:2020ER....191k0169W. doi:10.1016/j.envres.2020.110169. ISSN 0013-9351. PMID 32971082.
  4. ^ Gamble, David (2016). Rebuilding the American city : design and strategy for the 21st century core. New York, NY. ISBN 9781138798144.
  5. ^ "International WELL Building Institute". www.wellcertified.com.
  6. ^ "Fitwel". www.fitwel.org. Retrieved 1 December 2020.
  7. ^ "9 Foundations of a Healthy Building". 9 Foundations. Retrieved 2020-12-29.
  8. ^ Ngom, Roland; Gosselin, Pierre; Blais, Claudia (1 January 2016). "Reduction of disparities in access to green spaces: Their geographic insertion and recreational functions matter". Applied Geography. 66: 35–51. doi:10.1016/j.apgeog.2015.11.008. ISSN 0143-6228.
  9. ^ Schüle, Steffen Andreas; Hilz, Lisa Karla; Dreger, Stefanie; Bolte, Gabriele (4 April 2019). "Social Inequalities in Environmental Resources of Green and Blue Spaces: A Review of Evidence in the WHO European Region". International Journal of Environmental Research and Public Health. 16 (7): 1216. doi:10.3390/ijerph16071216. ISSN 1660-4601. PMC 6480666. PMID 30987381.
  10. ^ . WHO. Archived from the original on October 2, 2016.
  11. ^ Kaźmierczak, Aleksandra; Cavan, Gina (2011). "Surface water flooding risk to urban communities: Analysis of vulnerability, hazard and exposure". Landscape and Urban Planning. 103 (2): 185–197. doi:10.1016/j.landurbplan.2011.07.008.
  12. ^ "Drowning Facts | Drowning Prevention | CDC". 2 September 2021.
  13. ^ Britton, Easkey; Kindermann, Gesche; Domegan, Christine; Carlin, Caitriona (18 December 2018). "Blue care: a systematic review of blue space interventions for health and wellbeing". Health Promotion International. 35 (1): 50–69. doi:10.1093/heapro/day103. ISSN 0957-4824. PMC 7245048. PMID 30561661.
  14. ^ Gascon, Mireia; Zijlema, Wilma; Vert, Cristina; White, Mathew P.; Nieuwenhuijsen, Mark J. (1 November 2017). "Outdoor blue spaces, human health and well-being: A systematic review of quantitative studies". International Journal of Hygiene and Environmental Health. 220 (8): 1207–1221. doi:10.1016/j.ijheh.2017.08.004. hdl:10230/33228. ISSN 1438-4639. PMID 28843736.
  15. ^ Cimini, Marla. "'Blue Mind': Why being near the water makes you happy". USA TODAY. Retrieved 2022-01-25.
  16. ^ Markevych, Iana; Schoierer, Julia; Hartig, Terry; Chudnovsky, Alexandra; Hystad, Perry; Dzhambov, Angel M.; de Vries, Sjerp; Triguero-Mas, Margarita; Brauer, Michael; Nieuwenhuijsen, Mark J.; Lupp, Gerd; Richardson, Elizabeth A.; Astell-Burt, Thomas; Dimitrova, Donka; Feng, Xiaoqi; Sadeh, Maya; Standl, Marie; Heinrich, Joachim; Fuertes, Elaine (1 October 2017). "Exploring pathways linking greenspace to health: Theoretical and methodological guidance". Environmental Research. 158: 301–317. Bibcode:2017ER....158..301M. doi:10.1016/j.envres.2017.06.028. hdl:10044/1/58798. ISSN 0013-9351. PMID 28672128. S2CID 1231444.
  17. ^ Bauman, Adrian; Smith, Ben; Stoker, Lyn; Bellew, Bill; Booth, Michael (1999). "Geographical influences upon physical activity participation: evidence of a 'coastal effect'". Australian and New Zealand Journal of Public Health. 23 (3): 322–324. doi:10.1111/j.1467-842X.1999.tb01265.x. ISSN 1753-6405. PMID 10388181. S2CID 697709.
  18. ^ Humpel, Nancy; Owen, Neville; Iverson, Don; Leslie, Eva; Bauman, Adrian (February 2004). "Perceived environment attributes, residential location, and walking for particular purposes". American Journal of Preventive Medicine. 26 (2): 119–125. doi:10.1016/j.amepre.2003.10.005. ISSN 0749-3797. PMID 14751322.
  19. ^ Edwards, Nicole Joy; Giles-Corti, Billie; Larson, Ann; Beesley, Bridget (1 July 2014). "The Effect of Proximity on Park and Beach Use and Physical Activity Among Rural Adolescents". Journal of Physical Activity and Health. 11 (5): 977–984. doi:10.1123/jpah.2011-0332. ISSN 1543-5474. PMID 23493147.
  20. ^ Halonen, Jaana I.; Kivimäki, Mika; Pentti, Jaana; Stenholm, Sari; Kawachi, Ichiro; Subramanian, S. V.; Vahtera, Jussi (2014). "Green and blue areas as predictors of overweight and obesity in an 8-year follow-up study". Obesity. 22 (8): 1910–1917. doi:10.1002/oby.20772. ISSN 1930-739X. PMID 24771608. S2CID 21318788.
  21. ^ Gaisberger, Martin; Šanović, Renata; Dobias, Heidemarie; Kolarž, Predrag; Moder, Angelika; Thalhamer, Josef; Selimović, Amina; Huttegger, Isidor; Ritter, Markus; Hartl, Arnulf (1 October 2012). "Effects of Ionized Waterfall Aerosol on Pediatric Allergic Asthma". Journal of Asthma. 49 (8): 830–838. doi:10.3109/02770903.2012.705408. ISSN 0277-0903. PMID 22861198. S2CID 18607451.
  22. ^ Moitra, Subhabrata; Benet, Marta; Arbillaga-Etxarri, Ane; Marín, Alicia; Barberan-Garcia, Anael; Borrell, Eulàlia; Rodríguez, Diego; Gimeno-Santos, Elena; Balcells, Eva; Koreny, Maria; Monteagudo, Mónica; Torán-Montserrat, Pere; Vall-Casas, Pere; Rodríguez-Roisin, Robert; Garcia-Aymerich, Judith (15 September 2018). "Association between interpersonal and environmental factors and health-related quality of life in patients with chronic obstructive pulmonary disease (COPD)". European Respiratory Journal. 52 (suppl 62): PA1179. doi:10.1183/13993003.congress-2018.PA1179. ISSN 0903-1936. S2CID 57865451.
  23. ^ Alcock, I.; White, M. P.; Lovell, R.; Higgins, S. L.; Osborne, N. J.; Husk, K.; Wheeler, B. W. (1 October 2015). "What accounts for 'England's green and pleasant land'? A panel data analysis of mental health and land cover types in rural England". Landscape and Urban Planning. 142: 38–46. doi:10.1016/j.landurbplan.2015.05.008. hdl:10871/17512. ISSN 0169-2046.
  24. ^ Dustin, Daniel, et al. "The Promise of River Running as a Therapeutic Medium for Veterans Coping with Post-Traumatic Stress Disorder." Therapeutic recreation journal 45.4 (2011): 326-40. ProQuest. Web. 10 Nov. 2020.
  25. ^ Godfrey, C. "The Positive Impact of Structured Surfing Courses on the Wellbeing of Vulnerable Young People." Community Practitioner. 88.1 (2015): 26. Web.
  26. ^ Vitale, V.; Martin, L. P.; White, M. P.; Elliott, L. R.; Wyles, K.; Browning, M. H. E. M.; Pahl, S.; Stehl, P.; Bratman, G. N.; Gascon, M.; Grellier, J.; Lima, M. L.; Lõhmus, M.; Nieuwenhuijsen, M. J.; Ojala, A.; Taylor, J.; van den Bosch, M.; Weinstein, N.; Fleming, L. E. (10 October 2022). "Mechanisms underlying childhood exposure to blue spaces and adult subjective well-being: An 18-country analysis". Journal of Environmental Psychology. 84: 101876. doi:10.1016/j.jenvp.2022.101876. ISSN 0272-4944. S2CID 252619516.
  27. ^ MacKerron, George; Mourato, Susana (1 October 2013). "Happiness is greater in natural environments". Global Environmental Change. 23 (5): 992–1000. doi:10.1016/j.gloenvcha.2013.03.010. ISSN 0959-3780.
  28. ^ Brereton, Finbarr; Clinch, J. Peter; Ferreira, Susana (1 April 2008). "Happiness, geography and the environment". Ecological Economics. 65 (2): 386–396. doi:10.1016/j.ecolecon.2007.07.008. ISSN 0921-8009.
  29. ^ Robert White, Charles Abraham, Jane R. Smith, Mathew White & Petra K. Staiger (2016) Recovery under sail: Rehabilitation clients' experience of a sail training voyage, Addiction Research & Theory, 24:5, 355-365, DOI: 10.3109/16066359.2015.1123252
  30. ^ Grellier, J.; Mishra, H. S.; Elliott, L. R.; Wuijts, S.; Braubach, M. F. W.; Hall, K. L.; Bell, S.; White, M. P.; Fleming, L. E. (July 2020), The BlueHealth Toolbox – Guidance for urban planners and designers., doi:10.5281/zenodo.3786387, retrieved 14 October 2022{{citation}}: CS1 maint: date and year (link)
  31. ^ Himansu Sekhar Mishra,Simon Bell, Peeter Vassiljev, Friedrich Kuhlmann, Gloria Niin, James Grellier (1 March 2020). "The development of a tool for assessing the environmental qualities of urban blue spaces". Urban Forestry & Urban Greening. 49: 126575. doi:10.1016/j.ufug.2019.126575. ISSN 1618-8667.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  32. ^ Mishra, Himansu Sekhar; Bell, Simon; Grellier, James; White, Mathew P. (2021-03-01). "Testing the reliability and effectiveness of a new tool for assessing urban blue spaces: The BlueHealth environmental assessment tool (BEAT)". Health & Place. 68: 102526. doi:10.1016/j.healthplace.2021.102526. hdl:20.500.11820/f4f39367-f459-4365-b82d-1ebd9d9023a4. ISSN 1353-8292. PMID 33610888. S2CID 231988842.

March 03, 2023
blue, space, this, article, about, blue, space, urban, planning, software, bluespace, software, also, referred, blue, infrastructure, urban, planning, design, comprises, areas, dominated, surface, waterbodies, watercourses, conjunction, with, greenspace, parks. This article is about blue space in urban planning For the software see Bluespace software Blue space also referred to as blue infrastructure in urban planning and design comprises all the areas dominated by surface waterbodies or watercourses In conjunction with greenspace parks gardens etc specifically urban open space it may help in reducing the risks of heat related illness from high urban temperatures urban heat island 1 Substantial urban waterbodies naturally exist as integral features of the geography of many cities because of their historical development for example the River Thames in London 2 The Water Lily Pond Claude Monet Downtown Green Bay City Deck along the Fox River Wisconsin Chattanooga waterfront panorama View of Brooklyn Bridge Park from Manhattan Bridge Christmas2004inMedellin Colombia Playa de la Caleta en Cadiz panoramio Longfellow bridge Boston Accessible blue spaces can help revitalizing neighborhoods and promote increased social connectedness 3 as seen on waterfront renovation projects like the Chattanooga Waterfront Chattanooga Tennessee the CityDeck in Green Bay Wisconsin or the Brooklyn Bridge Park in New York City 4 further enhanced by waterfront festivals such as the Christmas lights in Medellin in Colombia Design guidelines promoting healthy buildings such as WELL managed by The International WELL Building Institute IWBI 5 or Fitwel developed and managed by The Center for Active Design CfAD 6 recommend incorporating including and water features as a strategy to improve the health and wellness of the building occupants and the 9 foundations of a Healthy Building developed at Harvard T H Chan School of Public Health 7 also recommends indoor access to nature views or nature inspired elements Because neighborhoods with access to attractive natural features are susceptible of gentrification 8 the social benefits associated with waterbodies can be unequally distributed with Environmental Justice areas lacking access to good quality blue spaces 9 Contents 1 Health benefits of blue spaces 2 Effects of blue spaces on physical health 2 1 Increased physical activity 2 2 Reduced obesity 2 3 Improved respiratory health 3 Effects of blue spaces on mental health 3 1 Improved overall mental health 3 2 Improved mood and happiness 3 3 Improved recovery from drug and alcohol addiction 4 Blue spaces quality assessment tools 5 Blue spaces health effects assessment methods 6 See also 7 ReferencesHealth benefits of blue spaces EditProximity to water bodies may bring some risks to humans like water borne diseases in drinking water 10 flooding risks 11 or drowning 12 But scientific evidence shows that exposure to blue spaces is also associated with a variety of health benefits to those near water bodies 13 14 This is described by marine biologist Wallace J Nichols in his book Blue Mind 15 Another of the mechanisms by which this phenomenon can be explained is by the Biophilia hypothesis developed by Edward O Wilson This theory states that humans have developed a strong connection with nature throughout their evolution that leads to subconscious seeking for natural environments including green and blue spaces Recent research has identified three main pathways that can further explain why proximity to green and blue spaces can be beneficial to health Mitigation addresses these health benefits in relationship to the physical improvements that natural environments bring to the built environment such as reduction of urban heat island traffic air pollution or traffic noise Instoration focuses on the promotion of physical activity and other positive outcomes associated with increased physical activity and social connectivity promoted by natural spaces Restoration explains how the non threatening characteristics of the natural environments may reduce negative feelings and increase cognitive restoration 16 Effects of blue spaces on physical health EditIncreased physical activity Edit A variety of studies have found that people living near coastal areas are less sedentary more likely to engage in moderate and vigorous physical activity adequate for health 17 which could be explained due to the encouraging presence of walk paths along the coast Another possible explanation is found in the aesthetical attributes of blue spaces that may motivate individuals to engage in physical activities on blue spaces 18 But proximity to water bodies alone is not enough to promote increased levels of physical activity as those bodies need to be accessible to people A study focusing on teenagers found that those living near beaches that had a major road between their homes and the water body had lower levels of physical activity than those with a direct access to the beach 19 Reduced obesity Edit Blue spaces may reduce obesity as it promotes increased physical activity and a study suggest that living far from green or waterfront in urban areas may increase the risk of obesity 20 Improved respiratory health Edit Living near blue spaces can improve the quality of life of people with respiratory diseases such as asthma which could be explained by the mists and sprays generated by the water movement 21 as shown on a study measuring the impact in health of green and blue spaces for those with chronic obstructive pulmonary disease COPD 22 Effects of blue spaces on mental health EditImproved overall mental health Edit Researchers found a reduction of psychiatric cases on people living near green or coastal areas 23 Some of the studies found that ocean exposure or running along river helped war veterans suffering from PTSD 24 Others found that engaging in water related activities such as surfing can help coping with mental health issues and help developing self confidence and self reliance skills 25 A large study looking at links between childhood exposure to blue spaces and adult well being found that exposure to blue spaces in childhood was associated with better adult well being 26 Improved mood and happiness Edit Exposure to blue spaces is also linked to increased happiness A group of researchers studying the effect of green and blue spaces on happiness used a mobile app to track mood feelings of people when they were near water landscapes The researchers found increased levels of happiness in people near water bodies 27 Consistently with the findings focusing on physical health the positive effects on mood associated to blue spaces seem to diminish as the distance between the residence and the water increases 28 Improved recovery from drug and alcohol addiction Edit Educational interventions in blue spaces such as sailing have been shown to have positive perceived effects on people undergoing drug and alcohol rehabilitation 29 Blue spaces quality assessment tools EditIn order to understand how blue spaces may influence health promoting behaviours a group of researchers that focuses on blue spaces has developed a set of novel tools specifically designed to quantify the quality and potential health benefits of these spaces risks associated with their use and environmental quality 30 The BlueHealth Environmental Assessment Tool BEAT enables comparable assessment of environmental aspects and attributes that influence access to use of and health promoting activities in blue spaces The tool has been developed to be used by communities and urban landscape designers 31 32 Blue spaces health effects assessment methods EditAssessing the environmental benefits of a blue space intervention can be done by conducting a Health impact assessment HIA See also EditUrban green space Urban ecology Urban water management Green belt Healthy city Healthy buildings Public health Green infrastructureReferences Edit Gunawardena K R Wells M J Kershaw T 15 April 2017 Utilising green and bluespace to mitigate urban heat island intensity Science of the Total Environment 584 585 1040 1055 Bibcode 2017ScTEn 584 1040G doi 10 1016 j scitotenv 2017 01 158 ISSN 0048 9697 PMID 28161043 Gunawardena K R Wells M J Kershaw T 2017 Utilising green and bluespace to mitigate urban heat island intensity Science of the Total Environment Elsevier BV 584 585 1040 1055 Bibcode 2017ScTEn 584 1040G doi 10 1016 j scitotenv 2017 01 158 ISSN 0048 9697 PMID 28161043 White Mathew P Elliott Lewis R Gascon Mireia Roberts Bethany Fleming Lora E 1 December 2020 Blue space health and well being A narrative overview and synthesis of potential benefits Environmental Research 191 110169 Bibcode 2020ER 191k0169W doi 10 1016 j envres 2020 110169 ISSN 0013 9351 PMID 32971082 Gamble David 2016 Rebuilding the American city design and strategy for the 21st century core New York NY ISBN 9781138798144 International WELL Building Institute www wellcertified com Fitwel www fitwel org Retrieved 1 December 2020 9 Foundations of a Healthy Building 9 Foundations Retrieved 2020 12 29 Ngom Roland Gosselin Pierre Blais Claudia 1 January 2016 Reduction of disparities in access to green spaces Their geographic insertion and recreational functions matter Applied Geography 66 35 51 doi 10 1016 j apgeog 2015 11 008 ISSN 0143 6228 Schule Steffen Andreas Hilz Lisa Karla Dreger Stefanie Bolte Gabriele 4 April 2019 Social Inequalities in Environmental Resources of Green and Blue Spaces A Review of Evidence in the WHO European Region International Journal of Environmental Research and Public Health 16 7 1216 doi 10 3390 ijerph16071216 ISSN 1660 4601 PMC 6480666 PMID 30987381 WHO Water related diseases information sheets WHO Archived from the original on October 2 2016 Kazmierczak Aleksandra Cavan Gina 2011 Surface water flooding risk to urban communities Analysis of vulnerability hazard and exposure Landscape and Urban Planning 103 2 185 197 doi 10 1016 j landurbplan 2011 07 008 Drowning Facts Drowning Prevention CDC 2 September 2021 Britton Easkey Kindermann Gesche Domegan Christine Carlin Caitriona 18 December 2018 Blue care a systematic review of blue space interventions for health and wellbeing Health Promotion International 35 1 50 69 doi 10 1093 heapro day103 ISSN 0957 4824 PMC 7245048 PMID 30561661 Gascon Mireia Zijlema Wilma Vert Cristina White Mathew P Nieuwenhuijsen Mark J 1 November 2017 Outdoor blue spaces human health and well being A systematic review of quantitative studies International Journal of Hygiene and Environmental Health 220 8 1207 1221 doi 10 1016 j ijheh 2017 08 004 hdl 10230 33228 ISSN 1438 4639 PMID 28843736 Cimini Marla Blue Mind Why being near the water makes you happy USA TODAY Retrieved 2022 01 25 Markevych Iana Schoierer Julia Hartig Terry Chudnovsky Alexandra Hystad Perry Dzhambov Angel M de Vries Sjerp Triguero Mas Margarita Brauer Michael Nieuwenhuijsen Mark J Lupp Gerd Richardson Elizabeth A Astell Burt Thomas Dimitrova Donka Feng Xiaoqi Sadeh Maya Standl Marie Heinrich Joachim Fuertes Elaine 1 October 2017 Exploring pathways linking greenspace to health Theoretical and methodological guidance Environmental Research 158 301 317 Bibcode 2017ER 158 301M doi 10 1016 j envres 2017 06 028 hdl 10044 1 58798 ISSN 0013 9351 PMID 28672128 S2CID 1231444 Bauman Adrian Smith Ben Stoker Lyn Bellew Bill Booth Michael 1999 Geographical influences upon physical activity participation evidence of a coastal effect Australian and New Zealand Journal of Public Health 23 3 322 324 doi 10 1111 j 1467 842X 1999 tb01265 x ISSN 1753 6405 PMID 10388181 S2CID 697709 Humpel Nancy Owen Neville Iverson Don Leslie Eva Bauman Adrian February 2004 Perceived environment attributes residential location and walking for particular purposes American Journal of Preventive Medicine 26 2 119 125 doi 10 1016 j amepre 2003 10 005 ISSN 0749 3797 PMID 14751322 Edwards Nicole Joy Giles Corti Billie Larson Ann Beesley Bridget 1 July 2014 The Effect of Proximity on Park and Beach Use and Physical Activity Among Rural Adolescents Journal of Physical Activity and Health 11 5 977 984 doi 10 1123 jpah 2011 0332 ISSN 1543 5474 PMID 23493147 Halonen Jaana I Kivimaki Mika Pentti Jaana Stenholm Sari Kawachi Ichiro Subramanian S V Vahtera Jussi 2014 Green and blue areas as predictors of overweight and obesity in an 8 year follow up study Obesity 22 8 1910 1917 doi 10 1002 oby 20772 ISSN 1930 739X PMID 24771608 S2CID 21318788 Gaisberger Martin Sanovic Renata Dobias Heidemarie Kolarz Predrag Moder Angelika Thalhamer Josef Selimovic Amina Huttegger Isidor Ritter Markus Hartl Arnulf 1 October 2012 Effects of Ionized Waterfall Aerosol on Pediatric Allergic Asthma Journal of Asthma 49 8 830 838 doi 10 3109 02770903 2012 705408 ISSN 0277 0903 PMID 22861198 S2CID 18607451 Moitra Subhabrata Benet Marta Arbillaga Etxarri Ane Marin Alicia Barberan Garcia Anael Borrell Eulalia Rodriguez Diego Gimeno Santos Elena Balcells Eva Koreny Maria Monteagudo Monica Toran Montserrat Pere Vall Casas Pere Rodriguez Roisin Robert Garcia Aymerich Judith 15 September 2018 Association between interpersonal and environmental factors and health related quality of life in patients with chronic obstructive pulmonary disease COPD European Respiratory Journal 52 suppl 62 PA1179 doi 10 1183 13993003 congress 2018 PA1179 ISSN 0903 1936 S2CID 57865451 Alcock I White M P Lovell R Higgins S L Osborne N J Husk K Wheeler B W 1 October 2015 What accounts for England s green and pleasant land A panel data analysis of mental health and land cover types in rural England Landscape and Urban Planning 142 38 46 doi 10 1016 j landurbplan 2015 05 008 hdl 10871 17512 ISSN 0169 2046 Dustin Daniel et al The Promise of River Running as a Therapeutic Medium for Veterans Coping with Post Traumatic Stress Disorder Therapeutic recreation journal 45 4 2011 326 40 ProQuest Web 10 Nov 2020 Godfrey C The Positive Impact of Structured Surfing Courses on the Wellbeing of Vulnerable Young People Community Practitioner 88 1 2015 26 Web Vitale V Martin L P White M P Elliott L R Wyles K Browning M H E M Pahl S Stehl P Bratman G N Gascon M Grellier J Lima M L Lohmus M Nieuwenhuijsen M J Ojala A Taylor J van den Bosch M Weinstein N Fleming L E 10 October 2022 Mechanisms underlying childhood exposure to blue spaces and adult subjective well being An 18 country analysis Journal of Environmental Psychology 84 101876 doi 10 1016 j jenvp 2022 101876 ISSN 0272 4944 S2CID 252619516 MacKerron George Mourato Susana 1 October 2013 Happiness is greater in natural environments Global Environmental Change 23 5 992 1000 doi 10 1016 j gloenvcha 2013 03 010 ISSN 0959 3780 Brereton Finbarr Clinch J Peter Ferreira Susana 1 April 2008 Happiness geography and the environment Ecological Economics 65 2 386 396 doi 10 1016 j ecolecon 2007 07 008 ISSN 0921 8009 Robert White Charles Abraham Jane R Smith Mathew White amp Petra K Staiger 2016 Recovery under sail Rehabilitation clients experience of a sail training voyage Addiction Research amp Theory 24 5 355 365 DOI 10 3109 16066359 2015 1123252 Grellier J Mishra H S Elliott L R Wuijts S Braubach M F W Hall K L Bell S White M P Fleming L E July 2020 The BlueHealth Toolbox Guidance for urban planners and designers doi 10 5281 zenodo 3786387 retrieved 14 October 2022 a href Template Citation html title Template Citation citation a CS1 maint date and year link Himansu Sekhar Mishra Simon Bell Peeter Vassiljev Friedrich Kuhlmann Gloria Niin James Grellier 1 March 2020 The development of a tool for assessing the environmental qualities of urban blue spaces Urban Forestry amp Urban Greening 49 126575 doi 10 1016 j ufug 2019 126575 ISSN 1618 8667 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Mishra Himansu Sekhar Bell Simon Grellier James White Mathew P 2021 03 01 Testing the reliability and effectiveness of a new tool for assessing urban blue spaces The BlueHealth environmental assessment tool BEAT Health amp Place 68 102526 doi 10 1016 j healthplace 2021 102526 hdl 20 500 11820 f4f39367 f459 4365 b82d 1ebd9d9023a4 ISSN 1353 8292 PMID 33610888 S2CID 231988842 Retrieved from https en wikipedia org w index php title Blue space amp oldid 1139144079, wikipedia, wiki, book, books, library,

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