Problems of Social Hygiene, Public Health and History of Medicine

0869-866X2412-2106

Joint-Stock Company Chicot

963

10.32687/0869-866X-2022-30-4-600-607

Научная статья

The effect of green stands on human health

Khodjayan

A. B.

kum672002@mail.ruKarabaktsyan

G. A.

The Federal State Budget Educational Institution of Higher Education “The Stavropol State Medical University”

15122022

304600607

17082022

2022

The article describes the role of green stands in preserving and improving population health. They positively effect human emotional background, improving cognitive functions and mood, forming subjective feeling of cheerfulness, restoring vitality and contribute to normalization of somatic health. The article presents criteria for assessing quality of green stands. The recommendations on planning and designing green stands, considering climatic requirements are given. It is concluded that urban trees are a significant factor that brings economic dividends to population.

healthy urban planninggreen standspopulation health

здоровое городское планированиероль зеленых насажденийздоровье населения

Wolf Kathleen L., Lam Sharon T. Urban Trees and Human Health: A Scoping Review.Int. J. Environ. Res. Public Health. 2020;17(12):4371.

Pearlmutter D., Calfapietra C., Samson R. The Urban Forest: Cultivating Green Infrastructure for People and the Environment. Springer International Publishing A. G: Cham, Switzerland; 2017. 377 р.

Tiwary A., Williams I. D., Heidrich O. Development of multi-functional streetscape green infrastructure using a performance index approach. Environ. Pollut. 2016;208:209-20.

Li F., Liu X., Zhang X. Urban ecological infrastructure: An integrated network for ecosystem services and sustainable urban systems. J. Clean. Prod. 2017;163:12-8.

O’Brien L., De Vreese R., Kern M. Cultural ecosystem benefits of urban and peri-urban green infrastructure across different European countries. Urban For. Urban Green. 2017;24:236-48.

Konijnendijk C., Nilsson K., Randrup T., Schipperijn J Tyrväinen L. Benefits and uses of urban forests and trees. In: Urban Forests and Trees. Berlin/Heidelberg: Springer-Verlag; 2005. P. 81-114.

Konijnendijk C. C., Ricard R. M., Kenney A. Defining urban forestry - A comparative perspective of North America and Europe. Urban For. Urban Green. 2006;4:93-103.

Chen W. Y. Assessment and valuation of the ecosystem services provided by urban forests. In: Ecology, Planning, and Management of Urban Forests: International Perspectives. Eds M. M. Carreiro, Y. C. Song. New York: Springer; 2008. P. 53-83.

Dobbs C., Escobedo F. J., Zipperer W. C. A framework for developing urban forest ecosystem services and goods indicators. Landsc. Urban Plan. 2011;99:196-206.

10.

Roy S., Byrne J., Pickering C. A systematic quantitative review of urban tree benefits, costs, and assessment methods across cities in different climatic zones. Urban For. Urban Green. 2012;11:351-63.

11.

Davies H., Doick K., Handley P. Delivery of Ecosystem Services by Urban Forests. Edinburgh: Forestry Commission; 2017. 29 р.

12.

Nowak D. J., Crane D. E., Stevens J. C. Air pollution removal by urban trees and shrubs in the United States. Urban For. Urban Green. 2006;4:115-23.

13.

Nowak D. J., Hoehn R., Crane D. E. Oxygen production by urban trees in the United States. Arboric. Urban For. 2007;33:220-6.

14.

Livesley S. J., McPherson E. G., Calfapietra C. J. The urban forest and ecosystem services: Impacts on urban water, heat, and pollution cycles at the tree, street, and city scale. Environ. Qual. 2016;45:119-24.

15.

Kilbourne E. M. Risk factors for heatstroke: A case-control study. JAMA. 1982;247:3332.

16.

Graham D. A., Vanos J. K., Kenny N. A. The relationship between neighbourhood tree canopy cover and heat-related ambulance calls during extreme heat events in Toronto, Canada. Urban For. Urban Green. 2016;20:180-6.

17.

Stone B., Vargo J., Liu P. Avoided heat-related mortality through climate adaptation strategies in three US cities. PLoS ONE. 2014;9:e100852.

18.

Shin W. S., Shin C. S., Yeoun P. S. The influence of interaction with forest on cognitive function. Scand. J. For. Res. 2011;26:595-8.

19.

Donovan G. H., Prestemon J. P. The effect of trees on crime in Portland, Oregon. Environ. Behav. 2012;44:3-30.

20.

Martínez-Soto J., Gonzales-Santos L., Pasaye E. Exploration of neural correlates of restorative environment exposure through functional magnetic resonance.Intell. Build.Int. 2013;5:10-28.

21.

Korpela K., Takayama N., Lee J. Emotional, restorative and vitalizing effects of forest and urban environments at four sites in Japan.Int. J. Environ. Res. Public Health. 2014;11:7207-30.

22.

Andrews M., Gatersleben B. Variations in perceptions of danger, fear and preference in a simulated natural environment. J. Environ. Psychol. 2010;30:473-81.

23.

Baran P. K., Tabrizian P., Zhai Y. An exploratory study of perceived safety in a neighborhood park using immersive virtual environments. Urban For. Urban Green. 2018;35:72-81.

24.

Jorgensen A., Gobster P. H. Shades of green: measuring the ecology of urban green space in the context of human health and well-being. Nat. Cult. 2010;5:338-63.

25.

Morita E., Fukuda S., Nagano J. Psychological effects of forest environments on healthy adults: Shinrin-yoku (forest-air bathing, walking) as a possible method of stress reduction. Public Health. 2007;121:54-63.

26.

Park B.-J., Furuya K., Kasetani T. Relationship between psychological responses and physical environments in forest settings. Landsc. Urban Plan. 2011;102:24-32.

27.

Shin Y.-K., Kim D. J. Differences of psychological effects between meditative and athletic walking in a forest and gymnasium. Scand. J. For. Res. 2013;28:64-72.

28.

Gilchrist K., Brown C., Montarzino A. Workplace settings and wellbeing: Greenspace use and views contribute to employee wellbeing at peri-urban business sites. Landsc. Urban Plan. 2015;138:32-40.

29.

Kim J.-H., Lee C., Sohn W. Urban natural environments, obesity, and health-related quality of life among Hispanic children living in inner-city neighborhoods.Int. J. Environ. Res. Public Health. 2012;13:121.

30.

Roe J., Aspinall P. The restorative outcomes of forest school and conventional school in young people with good and poor behaviour. Urban For. Urban Green. 2011;10:205-12.

31.

Shin W. S. The influence of forest view through a window on job satisfaction and job stress. Scand. J. For. Res. 2007;22:248-53.

32.

Jung W. H., Woo J.-M., Ryu J. S. Effect of a forest therapy program and the forest environment on female workers’ stress. Urban For. Urban Green. 2015;14:274-81.

33.

Kim W., Lim S.-K., Chung E.-J. The effect of cognitive behavior therapy-based psychotherapy applied in a forest environment on physiological changes and remission of major depressive disorder. Psychiatry Investig. 2009;6:245.

34.

Berman M. G., Kross E., Krpan K. M.Interacting with nature improves cognition and affect for individuals with depression. J. Affect. Disord. 2012;140:300-5.

35.

Sonntag-Öström E., Nordin M., Lundell Y. Restorative effects of visits to urban and forest environments in patients with exhaustion disorder. Urban For. Urban Green. 2014;13:344-54.

36.

Taylor M. S., Wheeler B. W., White M. P. Urban street tree density and antidepressant prescription rates - A cross-sectional study in London. UK. Landsc. Urban Plan. 2015;136:174-9.

37.

Wu J., Jackson L. Inverse relationship between urban green space and childhood autism in California elementary school districts. Environ.Int. 2017;107:140-6.

38.

Li Q., Morimoto K., Kobayashi M. A forest bathing trip increases human natural killer activity and expression of anti-cancer proteins in female subjects. J. Biol. Regul. Homeost. Agents. 2008;22:45-55.

39.

Seo S. C., Park S. J., Park C.-W. Clinical and immunological effects of a forest trip in children with asthma and atopic dermatitis. Iran. J. Allergy Asthma Immunol. 2015;14:28-36.

40.

Li Q., Morimoto K., Kobayashi M. Visiting a forest, but not a city, increases human natural killer activity and expression of anti-cancer proteins.Int. J. Immunopathol. Pharmacol. 2008;21:117-27.

41.

Li Q., Kobayashi M., Inagaki H. A day trip to a forest park increases human natural killer activity and the expression of anti-cancer proteins in male subjects. J. Biol. Regul. Homeost. Agents. 2010;24:157-65.

42.

Li Q., Kobayashi M., Wakayama Y. Effect of phytoncide from trees on human natural killer cell function.Int. J. Immunopathol. Pharmacol. 2009;22:951-9.

43.

Mao G. X., Lan X. G., Cao Y. B. Effects of short-term forest bathing on human health in a broad-leaved evergreen forest in Zhejiang Province, China. Biomed. Environ. Sci. 2012;25:317-24.

44.

Eichinger M., Titze S., Haditsch B. How are physical activity behaviors and cardiovascular risk factors associated with characteristics of the built and social residential environment? PLoS ONE. 2015;10:e0126010.

45.

Tilt J. H. Walking trips to parks: Exploring demographic, environmental factors, and preferences for adults with children in the household. Prev. Med. 2010;50:69-73.

46.

Zuniga-Teran A., Orr B., Gimblett R. Neighborhood design, physical activity, and wellbeing: Applying the Walkability Model.Int. J. Environ. Res. Public Health. 2017;14:76.

47.

Takano T., Nakamura K., Watanabe M. Urban residential environments and senior citizens’ longevity in megacity areas: The importance of walkable green spaces. J. Epidemiol.Community Health. 2002;56:913-8.

48.

Jones B. A. Work more and play less? Time use impacts of changing ecosystem services: The case of the invasive emerald ash borer. Ecol. Econ. 2016;124:49-58.

49.

Ulmer J. M., Wolf K. L., Backman D. R. Multiple health benefits of urban tree canopy: The mounting evidence for a green prescription. Health Place. 2016;42:54-62.

50.

Lovasi G. S., Schwartz-Soicher O., Quinn J. W. Neighborhood safety and green space as predictors of obesity among preschool children from low-income families in New York City. Prev. Med. 2013;57:189-93.

51.

Ghimire R., Ferreira S., Green G. T. Green space and adult obesity in the United States. Ecol. Econ. 2017;136:201-12.

52.

Tsai W.-L., Floyd M. F., Leung Y.-F. Urban vegetative cover fragmentation in the U. S. Am. J. Prev. Med. 2016;50:509-17.

53.

Li Q., Otsuka T., Kobayashi M. Acute effects of walking in forest environments on cardiovascular and metabolic parameters. Eur. J. Appl. Physiol. 2011;111:2845-53.

54.

Song C., Ikei H., Kobayashi M. Effects of viewing forest landscape on middle-aged hypertensive men. Urban For. Urban Green. 2017;21:247-52.

55.

Park B.-J., Tsunetsugu Y., Kasetani T. Physiological effects of forest recreation in a young conifer forest in Hinokage Town, Japan. Silva Fenn. 2009;43:291-301.

56.

Mao G.-X., Cao Y.-B., Lan X.-G. Therapeutic effect of forest bathing on human hypertension in the elderly. J. Cardiol. 2012;60:495-502.

57.

Hartig T., Mitchell R., de Vries S. Nature and health. Annu. Rev. Public Health. 2014;35:207-28.

58.

Felappi J. F., Sommer J. H., Falkenberg T. Green infrastructure through the lens of “One Health”: A systematic review and integrative framework uncovering synergies and trade-offs between mental health and wildlife support in cities. Sci. Total Environ. 2020 Dec 15;748:141589.

59.

Angotti T. Towards the healthy city: People, places, and the politics of urban planning. Sci. Soc. 2013;77(4):595-7.

60.

Abraham A., Sommerhalder K., Abel T. Landscape and well-being: A scoping study on the health-promoting impact of outdoor environments.Int. J. Public Health. 2010;55(1):59-69.

61.

Wolf K. L., Lam T. S. Urban Trees and Human Health: A Scoping Review.Int. J. Environ. Res. Public Health. 2020;17(12):4371.

62.

Zhao J., Xu W., Ye L. Effects of auditory-visual combinations on perceived restorative potential of urban green space. Appl. Acoust. 2018;141:169-177.

63.

Alvarsson J. J., Wiens S., Nilsson M. E. Stress recovery during exposure to nature sound and environmental noise.Int. J. Environ. Res. Public Health. 2010;7:1036-46.

64.

Liu Y., Hu M., Zhao B. Audio-visual interactive evaluation of the forest landscape based on eye-tracking experiments. Urban For. Urban Green. 2019;46:126476.

65.

Evensen K. H., Raanaas R. K., Fyhri A. Soundscape and perceived suitability for recreation in an urban designated quiet zone. Urban For. Urban Green. 2016;20:243-8.

66.

Wang R., Helbich M., Yao Y. Urban greenery and mental wellbeing in adults: cross-sectional mediation analyses on multiple pathways across different greenery measures. Environ. Res. 2019;176:108535.

67.

Jorgensen A. All about the ‘wow factor’? The relationships between aesthetics, restorative effect and perceived biodiversity in designed urban planting. Landsc. Urban Plan. 2017;164:109-23.

68.

Amorim J. H., Engardt M., Johansson C. Regulating and Cultural Ecosystem Services of Urban Green Infrastructure in the Nordic Countries: A Systematic Review.Int. J. Environ. Res. Public Health. 2021 Jan 29;18(3):1219.

69.

Wolf K. L. Cascading Benefits: Designing Green Stormwater Infrastructure for Human Wellness. Seattle, WA: The Nature Conservancy; 2018. 15 p.

70.

Shanahan D. F., Lin B. B., Bush R. Toward improved public health outcomes from urban nature. Am. J. Public Health. 2015;105:470-7.

71.

Jennings V., Gaither C. Approaching environmental health disparities and green spaces: An ecosystem services perspective.Int. J. Environ. Res. Public Health. 2015;12:1952-68.

72.

Wolf K. L., Ferrini F., Konijnendijk van den Bosch C. C., Fini A. Social aspects of urban forestry and metro nature. In: Routledge Handbook of Urban Forestry. New York: Routledge; 2017. P. 65-81.

73.

Vanaken G. J., Danckaerts M. Impact of Green Space Exposure on Children's and Adolescents' Mental Health: A Systematic Review.Int. J. Environ. Res. Public Health. 2018 Nov 27;15(12):2668.

74.

Konarska J., Lindberg F., Larsson A. Transmissivity of solar radiation through crowns of single urban trees-application for outdoor thermal comfort modelling. Theor. Appl. Climatol. 2014;117:363-76.

75.

Lindberg F., Grimmond S. The influence of vegetation and building morphology on shadow patterns and mean radiant temperatures in urban areas: Model development and evaluation. Theor. Appl. Climatol. 2011;105:311-23.

76.

Lindberg F., Holmer B., Thorsson S. Characteristics of the mean radiant temperature in high latitude cities - implications for sensitive climate planning applications.Int. J. Biometeorol. 2014;58:613-27.

77.

Lindberg F., Thorsson S. The impact of urban planning strategies on heat stress in a climate-change perspective. Sustain. Cities Soc. 2016;25:1-12.

78.

Lindberg F., Onomura S., Grimmond C. S. B. Influence of ground surface characteristics on the mean radiant temperature in urban areas.Int. J. Biometeorol. 2016;60:1439-52.

79.

Thorsson S., Rayner D., Lindberg F. Present and projected future mean radiant temperature for three European cities.Int. J. Biometeorol. 2017;61:1531-43.

80.

Klingberg J., Broberg M., Strandberg B. Influence of urban vegetation on air pollution and noise exposure - A case study in Gothenburg, Sweden. Sci. Total Environ. 2017;599-600:1728-39.

81.

Bodin T., Björk J., Ardö J. Annoyance, Sleep and Concentration Problems due to Combined Traffic Noise and the Benefit of Quiet Side.Int. J. Environ. Res. Public Health. 2015;12:1612-28.

82.

Lanki T., Siponen T., Ojala A. Acute effects of visits to urban green environments on cardiovascular physiology in women: A field experiment. Environ. Res. 2017;159:176-85.

83.

Peschardt K. K., Stigsdotter U. K., Schipperijn J. Identifying Features of Pocket Parks that May Be Related to Health Promoting Use. Landsc. Res. 2016;41:79-94.

84.

Schipperijn J., Cerin E., Adams M. A. Access to parks and physical activity: An eight country comparison. Urban For. Urban Green. 2017;27:253-63.

85.

Schipperijn J., Ekholm O., Stigsdotter U. K. Factors influencing the use of green space: Results from a Danish national representative survey. Landsc. Urban Plan. 2010;95:130-7.

86.

Schipperijn J., Stigsdotter U. K., Randrup T. B. Influences on the use of urban green space - A case study in Odense, Denmark. Urban For. Urban Green. 2010;9:25-32.

87.

Bijker R. A., Sijtsma F. J. A portfolio of natural places: Using a participatory GIS tool to compare the appreciation and use of green spaces inside and outside urban areas by urban residents. Landsc. Urban Plan. 2017;158:155-65.

88.

Samuelsson K., Giusti M., Peterson G. D. Impact of environment on people’s everyday experiences in Stockholm. Landsc. Urban Plan. 2018;171:7-17.

89.

Bosch M. A. V. D., Mudu P., Uscila V. Development of an urban green space indicator and the public health rationale. Scand. J. Public Health. 2015;44:159-67.

90.

Ekkel E. D., De Vries S. Nearby green space and human health: Evaluating accessibility metrics. Landsc. Urban Plan. 2017;157:214-20.

91.

Schipperijn J., Bentsen P., Troelsen J. Associations between physical activity and characteristics of urban green space. Urban For. Urban Green. 2013;12:109-16.

92.

Nordh H., Hartig T., Hagerhall C.Components of small urban parks that predict the possibility for restoration. Urban For. Urban Green. 2009;8:225-35.

93.

Nordh H., Alalouch C., Hartig T. Assessing restorative components of small urban parks using conjoint methodology. Urban For. Urban Green. 2011;10: 95-103.

94.

Peschardt K. K., Schipperijn J., Stigsdotter U. K. Use of Small Public Urban Green Spaces (SPUGS). Urban For. Urban Green. 2012;11:235-44.

95.

Mesimäki M., Hauru K., Kotze D. J. Neo-spaces for urban livability? Urbanites’ versatile mental images of green roofs in the Helsinki metropolitan area, Finland. Land Use Policy. 2017;61:587-600.

96.

Riikonen A., Pumpanen J., Mäki M. High carbon losses from established growing sites delay the carbon sequestration benefits of street tree plantings-A case study in Helsinki, Finland. Urban For. Urban Green. 2017;26:85-94.

97.

Kuittinen M., Moinel C., Adalgeirsdottir K. Carbon sequestration through urban ecosystem services. Sci. Total Environ. 2016;563-564:623-32.

98.

Sæbø A., Popek R., Nawrot B. Plant species differences in particulate matter accumulation on leaf surfaces. Sci. Total Environ. 2012;427:347-54.

99.

Skjøth C., Ørby P. V., Becker T. Identifying urban sources as cause of elevated grass pollen concentrations using GIS and remote sensing. Biogeosciences. 2013;10:541-54.

100.

UN Habitat, 2016. Available at: http://habitat3.org/the-new-urban-agenda/