Andreas Meyer-Lindenberg
6. van Os, J., Kenis, G. & Rutten, B. P The environment and schizophrenia. Nature468,
203-212 (2010).
7. Selten,}. P & Cantor-Graae, E. Soziale Niederlage: Risikofaktor für Schizophrenie? BrJ
Psychiatry187, 101-102 (2005).
8. Bowler, D. E., Buyung-Ali, L. M., Knight, T. M. & Pullin, A. S. A systematic review of
evidence for the added bcnefits to health of exposure to natural environments. BMC
Public Health10, 456 (2010).
9. Park, B.J., et al. Physiological effects of Shinrin-yoku (taking in the atmosphere of the
forest)—using salivary Cortisol and cerebral activity as indicators. J Physiol Anthropol26,
123-128 (2007).
10. Bratman, G. N., Hamilton, J. P, Hahn, K. S., Daily, G. C. & Gross, J. J. Nature experi-
ence reduces rumination and subgenual prefrontal cortex activation. Proc Acad Natl Sei
USA112, 8567-8572 (2015).
11. Kaplan, S. The restorative bcnefits of nature: Toward an integrative framework. Journal
of Environmental Psychology15, 169—182 (1995).
12. Kellert, S. R. & Wilson, E. O. The biophilia hypothesis, (Island Press, 1995).
13. Kondo, M. C., Fluehr, J.M., McKeon, T. & Branas, C. C. Urban Green Space and Its
Impact on Human Health. IntJ Environ Res Public Healtlf (2018).
14. Maas, J., Verheij, R.A., Groenewegen, PP, de Vries, S. & Spreeuwenbcrg, P Green
space, urbanity, and health: how strong is the relation? J Epidemiol Community Health60,
587-592 (2006).
15. Alcock, I., White, M. P, Wheeler, B.W, Fleming, L. E. & Depledge, M. H. Longitudinal
effects on mental health of moving to greener and less green urban areas. Environ Sei
Technol48, 1247-1255 (2014).
16. Kabisch, N., Qureshi, S. & Haase, D. Human-environment interactions in urban green
spaces - A systematic review of Contemporary issues and prospects for future research.
Environmental Impact Assessment Review50, 25—34 (2015).
17. Beukcboom, C.J., Langeveld, D. & Tanja-Dijkstra, K. Stressreduzierende Effekte von
echter und künstlicher Natur in einem Krankenhaus-Wartezimmer./ Altern Complement
Med18, 329-333 (2012).
18. Chang, C.-Y. & Chen, P-K. Human resoinse to window views and indoor plants in the
workplace. Hortscience40, 1354—1359 (2005).
19. Bratman, G. N., Hamilton, J. P & Daily, G. C. The impacts of nature experience on
human cognitive function and mental health. Annals of the New York Academy of Sciences1249,
118-136 (2012).
20. Kaplan, R. & Kaplan, S. The experience of nature: A psychological perspective, (CUP Archiv,
1989).
21. Ulrich, R. S. Biophilia, Biophobia, and natural landscapes. Die Biophilie-Hypothese7,
73-137 (1993).
22. Ohly, H., et al. Attention Restoration Theory: A systematic review of the attention resto-
ration potential of exposure to natural environments. Journal ofToxicology and Environmen-
tal Health, PartB19, 305-343 (2016).
23. Norwood, M. E, et al. Brain activity, underlying mood and the environment: A systema-
tic review. Journal of Environmental Psychology65 (2019).
17
6. van Os, J., Kenis, G. & Rutten, B. P The environment and schizophrenia. Nature468,
203-212 (2010).
7. Selten,}. P & Cantor-Graae, E. Soziale Niederlage: Risikofaktor für Schizophrenie? BrJ
Psychiatry187, 101-102 (2005).
8. Bowler, D. E., Buyung-Ali, L. M., Knight, T. M. & Pullin, A. S. A systematic review of
evidence for the added bcnefits to health of exposure to natural environments. BMC
Public Health10, 456 (2010).
9. Park, B.J., et al. Physiological effects of Shinrin-yoku (taking in the atmosphere of the
forest)—using salivary Cortisol and cerebral activity as indicators. J Physiol Anthropol26,
123-128 (2007).
10. Bratman, G. N., Hamilton, J. P, Hahn, K. S., Daily, G. C. & Gross, J. J. Nature experi-
ence reduces rumination and subgenual prefrontal cortex activation. Proc Acad Natl Sei
USA112, 8567-8572 (2015).
11. Kaplan, S. The restorative bcnefits of nature: Toward an integrative framework. Journal
of Environmental Psychology15, 169—182 (1995).
12. Kellert, S. R. & Wilson, E. O. The biophilia hypothesis, (Island Press, 1995).
13. Kondo, M. C., Fluehr, J.M., McKeon, T. & Branas, C. C. Urban Green Space and Its
Impact on Human Health. IntJ Environ Res Public Healtlf (2018).
14. Maas, J., Verheij, R.A., Groenewegen, PP, de Vries, S. & Spreeuwenbcrg, P Green
space, urbanity, and health: how strong is the relation? J Epidemiol Community Health60,
587-592 (2006).
15. Alcock, I., White, M. P, Wheeler, B.W, Fleming, L. E. & Depledge, M. H. Longitudinal
effects on mental health of moving to greener and less green urban areas. Environ Sei
Technol48, 1247-1255 (2014).
16. Kabisch, N., Qureshi, S. & Haase, D. Human-environment interactions in urban green
spaces - A systematic review of Contemporary issues and prospects for future research.
Environmental Impact Assessment Review50, 25—34 (2015).
17. Beukcboom, C.J., Langeveld, D. & Tanja-Dijkstra, K. Stressreduzierende Effekte von
echter und künstlicher Natur in einem Krankenhaus-Wartezimmer./ Altern Complement
Med18, 329-333 (2012).
18. Chang, C.-Y. & Chen, P-K. Human resoinse to window views and indoor plants in the
workplace. Hortscience40, 1354—1359 (2005).
19. Bratman, G. N., Hamilton, J. P & Daily, G. C. The impacts of nature experience on
human cognitive function and mental health. Annals of the New York Academy of Sciences1249,
118-136 (2012).
20. Kaplan, R. & Kaplan, S. The experience of nature: A psychological perspective, (CUP Archiv,
1989).
21. Ulrich, R. S. Biophilia, Biophobia, and natural landscapes. Die Biophilie-Hypothese7,
73-137 (1993).
22. Ohly, H., et al. Attention Restoration Theory: A systematic review of the attention resto-
ration potential of exposure to natural environments. Journal ofToxicology and Environmen-
tal Health, PartB19, 305-343 (2016).
23. Norwood, M. E, et al. Brain activity, underlying mood and the environment: A systema-
tic review. Journal of Environmental Psychology65 (2019).
17