Perancangan Taman Gizi Terpadu Pedukuhan Gumulan di Kelurahan Caturharjo

Main Article Content

Floriberta Binarti
Yanuarius Benny Kristiawan
Evelyn Christabel Darmono
Maria Erika Febryanti

Abstract

Gumulan village, one of 14 villages in Caturharjo Village, has the highest population density, which launched a movement of 14 vegetable villages in the form of a nutrition garden. This community service activity aimed to assist the Gumulan Village in reviving a nutrition garden that was abandoned due to the pandemic through an integrated nutrition garden design service with a green architecture approach. The added facilities based on the results of the identification of the village’s problems and potency are intended to optimize the land use, empower communities and natural resources (bamboo), and develop local arts, which lead to improving the health and welfare of the population without destroying the environment. With the concept of green architecture, an integrated nutrition garden design can be realized as a space for gardening, exercising, playing, culinary tours, and performances that suit the environmental context.

Article Details

Section
Articles
Author Biography

Floriberta Binarti, Universitas Atma Jaya Yogyakarta

ORCID : https://orcid.org/0000-0002-3688-5635
Scopus ID : 55505273800
Google Scholar ID : f3CNO38AAAAJ
WoS Researcher ID : AAX-5366-2020
Garuda : 1130156

References

D. Larasati Zr, S. Suhendri, F. Izmi Nugrahanti, and N. Dwika Reztrie, Arsitektur Hijau Arsitektur. Bandung: ITB Press, 2018.

Yahya, “Taman Gizi dan Makanan Sehat Keluarga,” 2012. [Online]. Available: https://www.oborberkat.com/read/id/395/title/Taman+Gizi+Keluarga+Untuk+Pemulihan+Gizi+Berkelanjutan.html.

K. Pandak and K. Bantul, “Sejarah Kelurahan Letak Geografis dan Batas Administrasi Mata Pencaharian Penduduk Potensi Ekonomi,” vol. 4, 2017.

A. Ragheb, H. El-Shimy, and G. Ragheb, “Green Architecture: A Concept of Sustainability,” Procedia - Soc. Behav. Sci., vol. 216, no. February, pp. 778–787, 2016.

H. Lee, H. Mayer, and L. Chen, “Contribution of trees and grasslands to the mitigation of human heat stress in a residential district of Freiburg, Southwest Germany,” Landsc. Urban Plan., vol. 148, pp. 37–50, 2016.

H. Li, G. Wang, G. Tian, and S. Jombach, “Mapping and Analyzing the Park Cooling Effect on Urban Heat Island in an Expanding City: A Case Study in Zhengzhou City, China,” Land, vol. 9, no. 57, 2020.

S. Tsoka, A. Tsikaloudaki, and T. Theodosiou, “Analyzing the ENVI-met microclimate model’s performance and assessing cool materials and urban vegetation applications–A review,” Sustain. Cities Soc., vol. 43, no. April, pp. 55–76, 2018.

R. Kumar, P. R. Bhatnagar, V. Kakade, and S. Dobhal, “Tree plantation and soil water conservation enhances climate resilience and carbon sequestration of agro ecosystem in semi-arid degraded ravine lands,” Agric. For. Meteorol., vol. 282–283, no. November 2019, p. 107857, 2020.

K. Chaowana, S. Wisadsatorn, and P. Chaowana, “Bamboo as a sustainable building material—culm characteristics and properties,” Sustain., vol. 13, no. 13, 2021.

P. F. Borowski, I. Patuk, and E. R. Bandala, “Innovative Industrial Use of Bamboo as Key ‘Green’ Material,” Sustain., vol. 14, no. 4, 2022.

S. Widiati, “Arumdalu: An Urban Farm Honours the Past and Welcomes the Future,” Now! Jakarta, pp. 1–5, 2018.

E. Neufert and P. Neufert, Neufert Architects’ Data Fourth Edition, Fourth. New Jersey: Wiley-Blackwell, 2012.

L. D. Caturharjo, Peraturan Kelurahan Caturharjo No. 11 Tahun 2020 Tentang Pemanfaatan Tanah Kelurahan Caturharjo. Indonesia, 2020.

F. Binarti, S. Triyadi, M. D. Koerniawan, P. Pranowo, and A. Matzarakis, “Climate characteristics and the adaptation level to formulate mitigation strategies for a climate-resilient archaeological park,” Urban Clim., vol. 36, no. November 2020, p. 100811, 2021.

S. Tsoka, T. Theodosiou, K. Tsikaloudaki, and F. Flourentzou, “Modeling the performance of cool pavements and the effect of their aging on outdoor surface and air temperatures,” Sustain. Cities Soc., vol. 42, no. July, pp. 276–288, 2018.

F. Yang and L. Chen, “Developing a thermal atlas for climate-responsive urban design based on empirical modeling and urban morphological analysis,” Energy Build., vol. 111, pp. 120–130, 2016.

F. Binarti, M. D. Koerniawan, S. Triyadi, and A. Matzarakis, “The predicted effectiveness of thermal condition mitigation strategies for a climate-resilient archaeological park,” Sustain. Cities Soc., vol. 76, p. 103457, 2022.

A. Muscio, “The solar reflectance index as a tool to forecast the heat released to the urban environment: Potentiality and assessment issues,” Climate, vol. 6, no. 1, 2018.

M. Taleghani, “Urban Climate The impact of increasing urban surface albedo on outdoor summer thermal comfort within a university campus,” Urban Clim., vol. 24, pp. 175–184, 2018.

F. Binarti, H. E. Kusuma, M. D. Koerniawan, and S. Triyadi, “Exploring the perceived dimensions of open spaces’ elements influencing outdoor thermal comfort in the Indonesian context,” Int. Rev. Spat. Plan. Sustain. Dev., vol. 9, no. 3, pp. 41–57, 2021.