Details

Title

Techno-socio-economic analysis of fog-to-water solution for climate change hazard area: Sumba Island, Indonesia

Journal title

Journal of Water and Land Development

Yearbook

2021

Issue

No 48

Affiliation

Ismail, Zaitizila : Heriot-Watt University Malaysia, School of Engineering and Physical Science, 62200 Putrajaya, Wilayah Persekutuan Putrajaya, Malaysia ; Go, Yun Ii : Heriot-Watt University Malaysia, School of Engineering and Physical Science, 62200 Putrajaya, Wilayah Persekutuan Putrajaya, Malaysia ; Karuniasa, Mahawan : Universitas Indonesia, School of Environmental Science, Jakarta, Indonesia

Authors

Keywords

climate change ; fog collector ; hazard ; Southeast Asia ; water scarcity

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

172-181

Publisher

Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute

Bibliography

ABDELKHALEQ R.A., ALHAJ AHMED I. 2007. Rainwater harvesting in ancient civilizations in Jordan. Water Science and Technology: Water Supply. Vol. 7(1) p. 85–93. DOI 10.2166/ws.2007.010.
ABDUL‐WAHAB S.A., LEA V. 2008. Reviewing fog water collection worldwide and in Oman. International Journal of Environmental Studies. Vol. 65(3) p. 487–500. DOI 10.1080/ 00207230802149983.
AHMED W., GARDNER T., TOZE S. 2011. Microbiological quality of roof-harvested rainwater and health risks: A review. Journal of Environmental Quality. Vol. 40(1) p. 13–21. DOI 10.2134/jeq2010.0345.
AL-FARUQ U., SAGALA S., RIANAWATI E., CURRIE E. 2016. Assessment of renewable energy impact to community resilience in Sumba Island [online]. Resilience Development Initiative. Working Paper Series. No. 9 pp. 14. [Access 12.04.2020]. Available at: https://www.preventionweb.net/go/51505
AMOATEY P., BANI R. 2011. Wastewater management. In: Waste water: Evaluation and management [online]. Ed. F.S.G. Einschlag p. 379–398. DOI 10.5772/16158. [Access: 17.03.2020]. Available at: https://www.intechopen.com/books/waste-water-evaluation-and-management/wastewater-management
ARIFFIN N., ABDULLAH M.M.A.B., ZAINOL M.R.R.M.A., MURSHED M.F., FARIS M.A., BAYUAJI R. 2017. Review on adsorption of heavy metal in wastewater by using geopolymer. MATEC Web of Conferences. Vol. 97, 01023 pp. 8.
BAAWAIN M., CHOUDRI B.S., AHMED M., PURNAMA A. (eds.). 2015. Recent progress in desalination, environmental and marine outfall systems. Basel, Switzerland: Springer International Publishing.
BHUVANESWARI K., GEETHALAKSHMI V., LAKSHMANAN A., SRINIVASAN R., SEKHAR N.U. 2013. The impact of El Nino/ Southern oscillation on hydrology and rice productivity in the Cauvery Basin, India: Application of the soil and water assessment tool. Weather and Climate Extremes. Vol. 2 p. 39–47. DOI 10.1016/j.wace.2013.10.003.
BPS 2013. Sumba Timur Dalam Angka 2013. Katalog BPS 1102001.5302. Waingapu. Badan Pusat Statistik Kabupaten Sumba Timurp Rovinsi Nusa Tenggara Timur pp. 431.
BPS 2016. Provinsi Nusa Tenggara Timur Dalam Angka 2016 [Nusa Tenggara Timur Province in Figures 2016]. Badan Pusat Statistik Provinsi Nusa Tenggara Timur. ISSN 0215-2223 pp. 511.
BPS 2017. Jumlah UMK dan Jumlah Penduduk Menurut Pulau di Peovinsi NTT [Number of UMK and Total Population by Island in NTT Province] [online]. Badan Pusat Statistic Provinsi Nusa Tenggara Timur. [Access 10.05.2020]. Available at: https://ntt.bps.go.id/statictable/
CERECEDA P., SCHEMENAUER R.S., SUIT M. 1992. An alternative water supply for Chilean coastal desert villages. International Journal of Water Resources Development. Vol. 8(1) p. 53–59.
CHANDRAPPA R., GUPTA S., KULSHRESTHA U.C. 2011. Coping with climate change: principles and Asian context. Berlin–Heidelberg. Springer Verlag. ISBN 978-3-642-44745-7 pp. 370. DOI 10.1007/978-3-642-19674-4. CRAINE S. 2013. Final short fieldwork report for a village electrification options on Sumba Island. Hivos.
DAVTALAB R., SALAMAT A., OJI R. 2013. Water harvesting from fog and air humidity in the warm and coastal regions in the south of Iran. Irrigation and Drainage. Vol. 62(3) p. 281–288. DOI 10.1002/ird.1720.
DEVI R., DIBOCH B., SINGH V. 2012. Rainwater harvesting practices: A key concept of energy-water linkage for sustainable development. Scientific Research and Essays. Vol. 7(5) p. 538–543. DOI 10.5897/SRE09.487.
DHINGRA N., SINGH N.S., SHARMA R., PARWEEN T. 2020. Rainwater harvesting and current advancements. In: Modern age waste water problems. Solutions Using Applied Nanotechnology. Eds. M. Oves, M. Omaish Ansari, M. Zain Khan, M., Shahadat, I.M.I. Ismail. Springer Nature Switzerland p. 293–307.
DODSON L.L., BARGACH J. 2015. Harvesting fresh water from fog in rural Morocco: research and impact Dar Si Hmad’s Fogwater Project in Aït Baamrane’. Procedia Engineering. Vol. 107 p. 186–193. DOI 10.1016/j.proeng.2015.06.073.
DOMEN J.K., STRINGFELLOW W.T., CAMARILLO M.K., GULATI S. 2014. Fog water as an alternative and sustainable water resource. Clean Technologies and Environmental Policy. Vol. 16(2) p. 235–249. DOI 10.1007/s10098-013-0645-z.
FESSEHAYE M., ABDUL-WAHAB S.A., SAVAGE M.J., KOHLER T., GHEREZGHIHER T., HURNI H. 2017. Assessment of fog-water collection on the eastern escarpment of Eritrea. Water International. Vol. 42(8) p. 1022–1036. DOI 10.1080/02508060.2017.1393714.
FISHER R., BOBANUBA W.E., RAWAMBAKU A., HILL G.J., RUSSELL-SMITH J. 2006. Remote sensing of fire regimes in semi-arid Nusa Tenggara Timur, eastern Indonesia: Current patterns, future prospects. International Journal of Wildland Fire. Vol. 15(3) p. 307–317. DOI 10.1071/WF05083.
FREDERIKS B. 2013. Sumba energy from waste. Desk study report. Sumba Iconic Island Reports [online]. [Access 20.05.2020]. Hivos pp. 20 + App.. Available at: https://sumbaiconicisland.org/wp-content/
GANDHIDASAN P., ABUALHAMAYEL H.I., PATEL F. 2018. Simplified modeling and analysis of the fog water harvesting system in the Asir Region of the Kingdom of Saudi Arabia. Aerosol and Air Quality Research. Vol. 18(1) p. 200–213. DOI 10.4209/aaqr.2016.11.0481.
GOKKON B. 2015. Sumba renewable energy: A bright future where the lights don’t go out [online]. [Access 10.04.2020]. Available at: http://jakartaglobe.id/news/sumba-renewable-energybright-future-lights-dont-go/
HAMILTON K., REYNEKE B., WASO M., CLEMENTS T., NDLOVU T., KHAN W., …, AHMED W. 2019. A global review of the microbiological quality and potential health risks associated with roof-harvested rainwater tanks. npj Clean Water. Vol. 2(1), 7 p. 1–18. DOI 10.1038/s41545-019-0030-5.
HELMREICH B., HORN H. 2009. Opportunities in rainwater harvesting. Desalination. Vol. 248(1–3) p. 118–124. DOI 10.1016/j.desal.2008.05.046. Hivos 2012. Sumba: An iconic island to demonstrate the potential of renewable energy. Poverty reduction, economic development and energy access combined [online]. [Access 20.05.2020]. Available at: https://sumbaiconicisland.org/wp-content/
KHAWAJI A.D., KUTUBKHANAH I.K., WIE J. M. 2008. Advances in seawater desalination technologies. Desalination. Vol. 221(1–3) p. 47–69. DOI 10.1016/j.desal.2007.01.067.
LATTEMANN S., HÖPNER T. 2008. Environmental impact and impact assessment of seawater desalination. Desalination. Vol. 220(1–3) p. 1–15. DOI 10.1016/j.desal.2007.03.009.
MAYERHOFER M., LOSTER T. 2015. Fog nets. Available at: https://www.munichre-foundation.org/content/dam/munichre/
MBILINYI B.P., TUMBO S.D., MAHOO H.F., SENKONDO E.M., HATIBU N. 2005. Indigenous knowledge as decision support tool in rainwater harvesting. Physics and Chemistry of the Earth. P. A/B/C. Vol. 30(11–16) p. 792–798. DOI 10.1016/ j.pce.2005.08.022.
MCSWEENEY C., NEW M., LIZCANO G., LU X. 2010. The UNDP Climate Change Country Profiles Improving the Accessibility of Observed and Projected Climate Information for Studies of Climate Change in Developing Countries. Bulletin of the American Meteorological Society. Vol. 91 p. 157–166. DOI 10.1175/2009BAMS2826.1.
METER K.J.V., BASU N.B., TATE E., WYCKOFF J. 2014. Monsoon harvests: The living legacies of rainwater harvesting systems in South India. Environmental Science & Technology. Vol. 48(8) p. 4217–4225. DOI 10.1021/es4040182.
MILLER J. 2019. Aqualonis: Converting fog into drinking water. Obtaining drinking water from fog [online]. [Access 12.04.2020]. Available at: https://www.european-business.com/aqualonis-gmbh/aqualonis-converting-fog-into-drinking-water
MONK K.A., DE FRETES Y., REKSODIHARDJO-LILLEY G. 1997. The ecology of Nusa Tenggara and Maluku. Vol. V. The Ecology of Indonesia Series. Hong Kong: Periplus Editions pp. 966.
OKTAVIANI R., AMALIAH S., RINGLER C., ROSEGRANT M.W., SULSER T.B. 2011. The impact of global climate change on the Indonesian economy [online]. International Food Policy Research Institute Discussion paper, 01148. [Access 17.05.2020]. Available at: http://ebrary.ifpri.org/cdm/ref/collection/p15738coll2/id/126762
OLIVIER J. 2008. Anyone for a glass of fresh fog? Alternative water sources for South Africa [online]. Research Report. Cape Town. UNISA p. 30–31. [Access 30.05.2020]. Available at: https://www.yumpu.com/en/document/view/27593719/unisa-2008-research-report-university-of-south-africa
PEREIRA D. 2008. Atacama [online]. flickr. [Access 20.05.2020]. Available at: https://www.flickr.com/photos/galeria_miradas/5816252302/in/photostream/
PIRNIA A., GOLSHAN M., DARABI H., ADAMOWSKI J., ROZBEH S. 2019. Using the Mann–Kendall test and double mass curve method to explore stream flow changes in response to climate and human activities. Journal of Water and Climate Change. Vol. 10(4) p. 725–742. DOI 10.2166/wcc.2018.162.
QADIR M., JIMÉNEZ G.C., FARNUM R.L., DODSON L.L., SMAKHTIN V. 2018. Fog water collection: Challenges beyond technology. Water. Vol. 10(4), 372 p. 1–10. DOI 10.3390/w10040372.
QDAIS H.A. 2008. Environmental impacts of the mega desalination project: the Red–Dead Sea conveyor. Desalination. Vol. 220(1–3) p. 16–23. DOI 10.1016/j.desal.2007.01.019.
RAHMAN A. 2017. Recent advances in modelling and implementation of rainwater harvesting systems towards sustainable development. Water. Vol. 9(12), 959. DOI 10.3390/ w9120959.
REARDON C., DOWNTON P., MCGEE C. 2013. Construction systems [online]. Your Home Australia’s guide to environmentally sustainable homes. [Access 17.05.2020]. Available at: https://www.yourhome.gov.au/materials/construction-systems
SASSEN K., WANG Z., LIU D. 2009. Cirrus clouds and deep convection in the tropics: Insights from CALIPSO and CloudSat. Journal of Geophysical Research: Atmospheres. Vol. 114. Iss. D4, ID D00H06. DOI 10.1029/2009JD011916.
SCHEMENAUER R.S., CERECEDA P. 1994. Fog collection's role in water planning for developing countries. Natural Resources Forum. Vol. 18. No. 2 p. 91–100. DOI 10.1111/j.1477-8947.1994.tb00879.x.
SCHEMENAUER R.S., OSSES P., LEIBBRAND M. 2004. Fog collection evaluation and operational projects in the Hajja Governorate, Yemen. In: Proceedings of the 3rd International Conference on Fog, Fog Collection and Dew. 11–15.10.2004. Cape Town, South Africa.
SHANYENGANA E.S., SANDERSON R.D., SEELY M.K., SCHEMENAUER R.S. 2003. Testing greenhouse shade nets in collection of fog for water supply. Journal of Water Supply: Research and Technology – AQUA. Vol. 52(3) p. 237–241.
SIDDIQUE M.N.I., MUNAIM M.S.A., ZULARISAM A.W. 2015. Feas¬ibility analysis of anaerobic co-digestion of activated manure and petrochemical wastewater in Kuantan (Malaysia). Journal of Cleaner Production. Vol. 106 p. 380–388. DOI 10.1016/j.jclepro.2014.08.003.
SII 2016. The iconic island for renewable energy. Sumba Iconic Island [online]. [Access 07.05.2020]. Available at: https://sumbaiconicisland.org/
SIPAYUNG S.B., SUSANTI I., MARYADI E., NURLATIFAH A., SISWANTO B., NAFAYEST M., PUTRI F.A., HERMAWAN E. 2019. Analysis of drought potential in Sumba Island until 2040 caused by climate change. Journal of Physics: Conference Series. Vol. 1373, 012004. DOI 10.1088/1742-6596/1373/1/012004.
SYAUKAT Y. 2011. The impact of climate change on food production and security and its adaptation programs in Indonesia. Journal of the International Society for Southeast Asian Agricultural Sciences. Vol. 17(1) p. 40–51. The Guardian 2016. Cloud fishing' reels in precious water for villagers in rural Morocco [online]. [Access 26.5.2020]. Available at: https://www.theguardian.com/global-development/2016/dec/26/cloud-fishing-reels-in-precious-water-villagers-rural-morocco-dar-si-hmad
TIEDEMANN K.J., LUMMERICH A. 2010. Fog harvesting on the verge of economic competitiveness [online]. 5th International Conference on Fog, Fog Collection and Dew. 25–30.07.2010. Münster, Germany. id.FOGDEW2010-93. [Access 07.05.2020]. Available at: http://meetings.copernicus.org/fog2010
TORTAJADA C. 2006. Water management in Singapore. Water Resources Development. Vol. 22(2) p. 227–240. DOI 10.1080/07900620600691944.
UNDP 2017. Sisi lain perubahan iklim: Mengapa Indonesia harus beradaptasi untuk melindungi rakyat iskinnya. United Nations Development Programme Indonesia. ISBN 978-979-17069-0-2 pp. 20.
USAID 2017. Climate risk profile: Indonesia [online]. Fact sheet pp. 5. [Access 30.05.2020]. Available at: https://www.climatelinks.org/sites/default/files/asset/document/2017_USAID_ATLAS_Climate%20Risk%20Profile_Indonesia.pdf
VINKE K., SCHELLNHUBER H.J., COUMOU D., GEIGER T., GLANEMANN N., HUBER V., KNAUS M., KROPP J., KRIEWALD S., LAPLANTE B., LEHMANN J. 2017. A region at risk: The human dimensions of climate change in Asia and the Pacific [online]. Mandaluyong City, Metro Manila: Asian Development Bank. [Access 30.04.2020]. Available at: https://www.adb.org/sites/default/files/publication/325251/region-risk-climate-change.pdf
WINQVIST G., DAHLBERG E., SMITH B., BERLEKOM M. 2008. Indonesia environmental and climate change policy brief. Gothenburg. Sida Helpdesk for Environmental Economics, University of Gothenburg pp. 24. WV 2016. World vision’s response to El Niño in Asia-Pacific. Snapshot of interventions in priority countries and funding available per response [online]. World Vision Asia Pacific, OCHA, US National Oceanic & Atmospheric Administration, World Meteorological Organization [Access 30.04.2020]. Available at: http://www.wvi.org/sites/default/files/ElNino_AsiaPacific_April2016.pdf
YOUNOS T. 2005. Environmental issues of desalination. Journal of Contemporary Water Research and Education. Vol. 132(1) p. 11–18. DOI 10.1111/j.1936-704X.2005.mp132001003.x.
ZHANG S.X., BABOVIC V. 2012. A real options approach to the design and architecture of water supply systems using innov-ative water technologies under uncertainty. Journal of Hydroinformatics. Vol. 14(1) p. 13–29. DOI 10.2166/hydro.2011.078.

Date

2021.03.22

Type

Article

Identifier

DOI: 10.24425/jwld.2021.136160

Source

Journal of Water and Land Development; 2021; No 48; 172-181

Aims and scope

Journal of Water and Land Development - is a peer reviewed research journal published in English. Journal has been published continually since 1998. From 2013, the journal is published quarterly in the spring, summer, autumn, and winter. In 2011 and 2012 the journal was published twice a year, and between 1998 and 2010 it was published as a yearbook. Papers may report the results of experiments, theoretical analyses, design of machines and mechanization systems, processes or processing methods, new materials, new measurements methods or new ideas in information technology.


The Journal of Water and Land Development is the quarterly journal devoted to the publication of papers dealing with the following subjects:
- development of water resources in small river basins: assessment of surface and ground water resources, drought and floods, the methods of assessment of man activity influence on water resources;
- sustainable development of agricultural landscape: farm arrangement, wetlands protection, the role of forest and grassland;
- protection of water resources quality: non-point contamination from agriculture, villages and farms, methods of surface and ground water pro-tection;
- irrigation and drainage: management, maintenance and operation, water use, water-crop relations, the influence of drainage and irrigation on environment;
- hydraulic structures for water management in small basins, earth structures, river conservation, etc.

Editorial Board

Editorial Board:

Jan Franklin ADAMOWSKI – McGill University, Quebec, Canada

Tariq AFTAB – Aligarh Muslim University, Alīgarh, India ORCID logo0000-0002-5927-719X

Suleyman I. ALLAKHVERDIEV – Azerbaijan State University, Baku, Azerbaijan

Ozan ARTUN – Çukurova University, Adana, Turkey ORCID logo0000-0002-6122-2729

Habib R. ATHAR – Institute of Pure and Applied Biology, Zakariya University, Multan, Pakistan ORCID logo0000-0002-8733-3865

Atilgan ATILGAN – Alanya Alaaddin Keykubat University, Alanya, Turkey

Okke BATELAAN – Flinders University, Adelaide, Australia ORCID logo0000-0003-1443-6385

Marian BRESTIC – Slovak University of Agriculture, Nitra, Slovakia

Filippo BUSSOTTI – University of Firenze, Firenze, Italy

Shiguo CHEN – Nanjing Agricultural University, Nanjing, China

Ralf DANNOWSKI – Leibniz-Zentrumfür Agrarlandschaftsforschung, Brandenburg, Germany ORCID logo0000-0002-9331-672X

Nabil ELSHERY–Tanta University, Tanta, Egypt ORCID logo0000-0001-9542-1913

Domenica FARCI – Università degli studi di Cagliari, Cagliari, Italy

GOVINDJEE – University of Illinois at Urbana-Champaign, Urbana, USA ORCID logo0000-0003-3774-0638

Francisco GUERRERO – Universidad de Jaén, Jaén, Spain

Salim HEDDAM – Université 20 août 1955-Skikda, Skikda, Algeria ORCID logo0000-0002-8055-8463

Tomasz HORACZEK – Institute of Technology and Life Sciences, Falenty, Poland ORCID logo0000-0001-5534-7544

Miroslava KAČÁNIOVÁ – Slovak University of Agriculture, Nitra, Slovakia

Jan KAZAK – Wroclaw University of Environmental and Life Sciences, Poland

Sungwon KIM – Dongyang University, Yeongju, Republic of Korea ORCID logo0000-0002-9371-8884

Ozgur KISI – University of Applied Sciences, Lübeck, Germany ORCID logo0000-0001-7847-5872

Peter KOVALENKO – Institute of Water Problems and Melioration of the National Academy of Agrarian Sciences, Ukraine

Nour-Eddine LAFTOUHI – Cadi Ayyad University, Marrakesh, Morocco

Ramin LOTFI – Dryland Agricultural Research Institute, AREEO, Maragheh, Iran

Grażyna MASTALERCZUK – Warsaw University of Life Sciences – SGGW, Warsaw, Poland

Maria MRÓWCZYŃSKA – University of Zielona Góra, Poland ORCID logo0000-0002-4762-3999

Samar OMAR – Tanta University, Tanta, Egypt

Dario PIANO – Università degli studi di Cagliari, Cagliari, Italy

Karol PLESIŃSKI – Agricultural University in Cracow, Cracow, Poland

Majeti Narasimha Vara PRASAD – University of Hyderabad, Hyderabad, India

Mahendra RAI – SGB Amravati University, Maharashtra, India

Marcin RAPACZ – University of Agriculture, Cracow, Poland

Manzer H. SIDDIQUI – King Saud University, Riyadh, Saudi Arabia

Edyta SIERKA – University of Silesia, Katowice, Poland

Ewa SOBIESZCZUK-NOWICKA – Adam Mickiewicz University in Poznań, Poznań, Poland ORCID logo0000-0002-6603-0582

Kazimierz STRZAŁKA – Jagiellonian University, Cracow, Poland

Wayan SUPARTA – Institute Technology National Yogyakarta, Yogyakarta, Indonesia

Sawsan TAWKAZ – Consultative Group on International Agricultural Research, Montpellier, France

Adam TAŃSKI – West Pomeranian University of Technology, Szczecin, Poland

Renata TOBIASZ-SALACH – Rzeszow University, Rzeszow, Poland

Katarzyna TURNAU – Jagiellonian University, Cracow, Poland

Martin J. WASSEN – Utrecht University, Utrecht, Netherlands

Marek ZIVCAK – Slovak University of Agriculture, Nitra, Slovak Republic









Abstracting & Indexing

Abstracting & Indexing

Journal of Water and Land Development is covered by the following services:

AGRICOLA (National Agricultural Library)

AGRIS

AGRO

Arianta

Baidu Scholar

Cabell's Whitelist

CABI (over 50 subsections)

Chemical Abstracts Service (CAS) - CAplus

Chemical Abstracts Service (CAS) - SciFinder

CNKI Scholar (China National Knowledge Infrastructure)

CNPIEC - cnpLINKer

Current Geographical Publications Dimensions

DOAJ (Directory of Open Access Journals)

EBSCO (relevant databases)

EBSCO Discovery Service

Engineering Village

Genamics JournalSeek

GeoArchive

GeoRef

Google Scholar

Index Copernicus

Japan Science and Technology Agency (JST)

J-Gate

JournalGuide

JournalTOCs

KESLI-NDSL (Korean National Discovery for Science Leaders)

Microsoft Academic

MyScienceWork

Naver Academic

Naviga (Softweco)

POL-index

Polish Scientific Journals Contents

Primo Central (ExLibris)

ProQuest (relevant databases)

Publons QOAM (Quality Open Access Market)

ReadCube

Reaxys

SCImago (SJR)

SCOPUS

Semantic Scholar

Sherpa/RoMEO

SIGZ

Summon (ProQuest)

TDNet

Ulrich's Periodicals Directory/ulrichsweb

WanFang Data

WorldCat (OCLC)

×