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Forest Science and Technology Volume 15, 2019 - Issue 3
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Article

Distribution of tree species around springs and trees-springs interplay possibility in the springs area of Soloraya, Central Java, Indonesia

SiswoDepartment of Forest Resources, Kongju National University, Chungnam, Republic of Korea; ;Watershed Management Technology Centre, Kartasura, Solo, Central Java, IndonesiaORCID Iconhttp://orcid.org/0000-0002-7859-1758View further author information
ORCID Icon,
Chung Weon YunDepartment of Forest Resources, Kongju National University, Chungnam, Republic of Korea; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-7048-6980View further author information
ORCID Icon &
Susi AbdiyaniWatershed Management Technology Centre, Kartasura, Solo, Central Java, IndonesiaORCID Iconhttp://orcid.org/0000-0002-2602-9528View further author information
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Pages 128-139 | Received 25 Dec 2018, Accepted 29 May 2019, Published online: 18 Jun 2019

References

  • Afrianto WF, Hikmat A, Widyatmoko D. 2017. Komunitas floristik dan suksesi vegetasi setelah erupsi 2010 di Gunung Merapi Jawa Tengah [Floristic community and vegetation succession after the 2010 eruption in Mount Merapi, Central Java]. J Biologi Indones. 12(2):265–276.
  • Arum TS. 2013. September 24. Berburu air, warga Paranggupito Wonogiri Mengebor 98 meter [Water hunting, residents of Paranggupito Wonogiri Drill it to 98 meters]. Semarangpos. [accessed 2017 August 20]. http://m.semarangpos.com/2013/09/24/bencana-kekeringan-berburu-air-warga-paranggupito-wonogiri-mengebor-98-meter-45081
  • Barbour MG, Burk JH, Pitts WD. 1987. Terrestrial plant ecology. Menlo Park: Benjamin/Cummings Publishing Co., Inc.
  • Billing W. 1952. The environmental complex in relation to plant growth and distribution. Q Rev Biol. 27(3):251–265.
  • BPDAS Solo. 2015. Laporan penyusunan data dan informasi DAS Solo tahun anggaran 2015 [Report on the compilation of the Solo Watershed Data and Information for 2015 s Fiscal Year]. Solo (SOC): Watershed Management Center of Solo (BPDAS Solo).
  • BPDASHL Solo. 2017. Rancangan rehabilitasi hutan dan lahan di imbuhan mata air [Design of forest and land rehabilitation in the recharge area of springs]. Solo City, Indonesia: Balai Pengelolaan Daerah Aliran Sungai [Centre of Watershed Management and Protected Forest] Solo (BPDASHL Solo).
  • BPS Boyolali. 2017. Kabupaten Boyolali dalam angka tahun 2016 [2016's Boyolali Regency in figures]. Boyolali: Badan Pusat Statistik Boyolali [Statistics center of Boyolali].
  • BPS Karanganyar. 2017. Kabupaten Karanganyar dalam angka tahun 2016 [2016's Karanganyar Regency in figures]. Karanganyar: Badan Pusat Statistik Karanganyar [Statistics center of Karanganyar].
  • BPS Klaten. 2017. Kabupaten Klaten dalam angka tahun 2016. [2016's Klaten Regency in figures]. Klaten: Badan Pusat Statistik Klaten [Statistics center of Klaten].
  • BPS Wonogiri. 2017. Kabupaten Wonogiri dalam angka tahun 2016 [2016's Wonogiri Regency in figures]. Wonogiri: Badan Pusat Statistik Wonogri [Statistics center of Wonogiri].
  • BPSDA Bengawan Solo. 2017. Informasi sumberdaya air; mata air: Surakarta. BPSDA Bengawan Solo [Public Works, Water resources, Human Settlements and Spatial Planning Center of Bangawan Solo]. [accesed 2018 July 2]. http://www.bpusdataru-bs.jatengprov.go.id/mata_air.php
  • Bradshaw A. 1997. What do we mean by restoration. In: Urbanska KM, Webb NR, & Edwards PJ, editors. Restoration ecology and sustainable development. Cambridge: The Press Syndicate of The University of Cambridge; p. 8–13.
  • Braeter C. 2009. Groundwater flow trough fractured rocks. Groundwater. 2:22–42.
  • Burgess SS, Adams MA, Turner NC, White DA, Ong CK. 2001. Tree roots: conduits for deep recharge of soil water. Oecologia. 126(2):158–165.
  • Canadell J, Jackson RB, Ehleringer JR, Mooney HA, Sala OE, Schulze ED. 1996. Maximum rooting depth of vegetation types at the global scale. Oecologia. 108(4):583–595.
  • CLIMATE-DATA.ORG: Data iklim kota-kota di seluruh dunia [Climate data for cities around the world]. [accesed 2018 August 4]. www.id.climate-data.org
  • Currel G. 2015. Scientific data analysis. New York: Oxford University Press.
  • David TS, Pinto CA, Nadezhdina N, Kurz-Besson C, Henriques MO, Quilhó T, Cermak J, Chaves MM, Pereira JS, David JS. 2013. Root functioning, tree water use and hydraulic redistribution in Quercus suber trees: a modeling approach based on root sap flow. Forest Ecol Manag. 307:136–146.
  • Duan L, Huang M, Zhang L. 2016. Differences in hydrological responses for different vegetation types on a steep slope on The Loess Plateu, China. J Hydrol. 537:356–366.
  • Dufrêne M, Legendre P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecol Monogr. 67(3):345–366.
  • Dwire K, Kauffman J, Baham J. 2006. Plant species distribution in relation to water-table depth and soil redox potential in montane riparian meadows. Wetlands. 26(1):131–146.
  • Elliot D, Pierson J, Roman M. 2012. Relationship between environmental conditions and zooplankton community structure during summer hypoxia in the nothern Gulf of Mexico. J Plankton Res. 34(7):602–613.
  • Fan J, Ostergaard KT, Guyot A, Fujiwara S, Lockington DA. 2016. Estimating groundwater evapotranspiration by a subtropical pine plantation using diurnal water table fluctuations: implication from night-time water use. J Hydrol. 542:679–685.
  • Fiqa AP, Arisoesilaningsih E. Soejono 2005. Konservasi mata air DAS Brantas memanfaatkan diversitas flora Indonesis [Conservation of the Brantas watershed utilizes the diversity of Indonesian flora]. Seminar Basic Science II. FMIPA UNIBRAW.
  • Foster S, Koundouri P, Tuinholf A, Kemper K, Nanni M, Garduno H. 2006. Groundwater dependent ecosystem; the challenge of balanced assesment and adequate conservation. Washington DC: World Bank.
  • George RJ, Nulsen RA, Ferdowsian R, Raper GP. 1999. Interaction betseen trees and groundwaters in recharge and discharge areas-A survey of Western Australian sites. Agr Water Manage. 39(2–3):91–113.
  • Gilman EF, Waston DG. 1993. Ficus benjamina weeping fig. Gainesville: University of Florida Fact Sheet ST–251.
  • Goslee S, Bro.Ks R, Cole C. 1997. Plants as indicator of wetland water source. Plant Ecol. 131(2):199–206.
  • Grielber C, Avramov M. 2014. Groundwater ecosystem services: a review. Freshw Sci. 34(1):355–367.
  • Hendrayana H. 2013. Hidrogelologi mata air [Hydrogeology of springs]. Yogyakarta. Geological Engineering Dept., Faculty of Engineering, Gadjah Mada University.
  • Horton, JL, Hart, SC. 1998. Hydraulic lift: a potentially important ecosystem process. Trends Ecol Evol. 13(6):232–235.
  • Hoyos IC, Krakauer NY, Khanbilvardi R. 2016. Estimating the probability of vegetation to be groundwater dependent based on the elevation tree models. Environments. 3(9):1–21.
  • Iskandar. 2017. Mata Air Soloraya Mati [Springs of Soloraya are dead]. Solopos. [accessed 2017 August 20]. news. [nasional]. http://news.solopos.com/read/20170819/496/844283/198-mata-air-soloraya-mati
  • Isnanto BA. 2017. August 16. Kritis, 198 mata air di Surakarta mati dalam 10 tahun terakhir [Precarious, 198 springs in Surakarta have died in the last 10 years]. Detiknews. [accessed 2017 August 20]. berita-jawa-tengah:[detail berita]. http://www.m.detik.com/news/berita-jawa-tengah/d-3602309/kritis-198-mata-air-di-surakarta-mati-dalam-10-tahun-terakhir
  • Junaedi E. 2014. 86 Kabupaten Kota di Indonesia Kekeringan [86 Regencies-cities in Indonesia are Drought]. Kompas. [accessed 2017 August 20];news:[regional]. https://regional.kompas.com/read/2014/09/17/22552601/86.Kabupaten.Kota.di.Indonesia.Kekeringan
  • Kali FB, Kusuma Z, Leksono AS. 2015. Diversity of vegetation around the springs to support water resource conservation in Belu, East Nusa Tenggara, Indonesia. J Biodivers Environ Sci. 6(4):100–114.
  • Kimmins JP. 1987. Forest ecology: the biological basis for management of forest resources. New York: Macmillan Publishing Company. Chapter 2D, The biotic environment; p. 305–338.
  • KLHK. 2017. Statistik lingkungan dan kehutanan tahun 2016. [2016's Environmental and forestry statistics]. Jakarta: Kementerian Lingkungan Hidup dan Kehutanan (KLHK) [Ministry of Environment and Forestry].
  • Kusmana C. 1997. Metode survey vegetasi [Vegetation Survey Method]. Bogor: Institut Pertanian Bogor (IPB).
  • Le Mailtre DC, Scott DF, Colvin C. 1999. A review of information on interaction between vegetation and groundwater. Water SA. 25(2):137–152.
  • Lewis DC, Burgy RH. 1964. The relationship between oak tree roots and groundwater in fractured rock as determined by tritium tracing. J Geophys Res. 69(12):2579–2588.
  • Liu J, Clewell A. 2017. Management of ecological rehabilitation projects. Beijing: Science Press.
  • Lubczynski MW. 2009. The hydrogeological role of trees in water-limited environments. Hydrogeol J. 17(1):247.
  • Ludwig J, Reynolds J. 1988. Statistical ecology; a primer on methods and computing. New York: John Wiley and Sons.
  • MacDonald A, Davies J. 2005. A brief review of groundwater for rural water supply in sub-Saharan Africa. Nottingham: Britis Geological survey (BGS).
  • Maguran AE. 1988. Ecological diversity and its measurement. Pricenton: Pricenton University Press.
  • McCune B, Grace JB. 2002. Analysis of ecological communities. Oregon: MJM software.
  • Meinzer OE. 1927. Plants as indicator of ground water. Washington: United States Government Printing Office.
  • Moller AP, Jenions MD. 2002. How much variance can explained by acologist and evolutionary biologist? Oecologia. 132(4):492–500.
  • Park H, Lee JY, Song M. 2017. Scientific activities responsible for successful forest greening in Korea. Forest Sci Technol. 13(1):1–8.
  • Peck JE. 2010. Multivariate analysis for community ecologists. Oregon: MjM Software Design.
  • Ping A, Xiangjun L, Yuanrun Z, Egrinya EA, Yunus Q, Mingqing Z, Shinobu I. 2015. Distribution of plant species and species-soil relationship in the east central Gurbangtunggut Desert, China. J Geogr Sci. 25(1):101–112.
  • Pramono IB, Budiastuti MT, Gunawan T., Wiryanto 2017. Base flow from various area of pine forest at Kedungbulus sub watershed, Kebumen District, Central Java, Indonesia. Int J Dev Sust. 6(3):99–114.
  • Rencher A. 2002. Methods of multivariate analysis. New York: John Wilwy & Sons, Inc.
  • Richard, A, Galle, S, Descloitres, M, Cohard, JM, Vandervaere, JP, Séguis, L, Peugeot, C. 2013. Interplay of riparian forest and groundwater in the hillslope hydrology of Sudanian West Africa (northern Benin). Hydrol Earth Syst Sci. 17(12):5079–5096.
  • Ridwan M, Pamungkas DW. 2015. Diversity of trees around the springs in Panekan Sub-District, Magetan, East Java. Surakarta. Society for Indonesian Biodiversity. Pros Sem Nas Masy BIiodiv Indon. 1(6):1375–1379.
  • Riski P. 2015. Belajar konservasi hutan dan mata air di Wonosalam [Learning forest and springs conservation in Wonosalam]. Mongabay; Situs Berita Lingkungan. [accessed 2018 May 25]. http://www.mongabay.co.id/2015/04/30/belajar-konservasi-hutan-dan-mata-air-di-wonosalam/
  • Rozak AH, Gunawan H. 2015. Altitudinal gradient affects on trees and stand attributes in Mount Ciremai National Park, West Java, Indonesia. JPKW. 4(2):93–99.
  • Sastrapraja S, Afriastini JJ. 1984. Kerabat seri beringin sumber daya alam [Relatives of the banyan series of natural resources]. Bogor. Lembaga Biologi Nasional
  • Scanlon BR, Healy RW, Cook PG. 2002. Choosing appropriate techniques for quantifying groundwater recharge. Hydrogeol J. 10(1):18–39.
  • Schwinning S. 2010. The ecohydrology of roots in rocks. Ecohydrology. 3(2):238–245.
  • Selroos J-O, Walker DD, Ström A, Gylling B, Follin S. 2002. Comparison of alternative modelling approaches for groundwater flow in fractured rock. J Hydrol. 257(1–4):174–188.
  • Shannon C, Weaver W. 1949. The mathematical theori of communication. Champaign: Urbana: University of Illonis Press.
  • Siebert SF. 2005. The abundance and distribution of rattan over an elevation gradient in Sulawesi, Indonesia. Forest Ecol Manag. 210(1–3):143–158.
  • Siswadi S, Taruna T, Purnaweni H. 2011. Kearifan lokal dalam melestarikan mata air (studi kasus di Desa Purwogondo Kecamatan Boja Kabupaten Kendal) [Local wisdom in preserving springs (case study in Purwogondo Village, Boja County, Kendal District)]. J Ilmu Lingk. 9(2):63–68.
  • Siswo, Yuliantoro D, Atmoko BD, Yun CW. 2017. Benefit of Moraceae Family Trees in Emergence of Springs; Local Knowledge Perception (Case Study from Gendol Hill, Bulukerto, Wonogiri, Central Java, Indonesia). Koreaan Soc Environ Con. 27(2):8–9. Oct 26–27, Sancheong, South Korea: Koreaan Society of Environment and Ecology.
  • Soejono BS, Arisoesilaningsih E. 2013. Proposing local trees diversity for rehabilitation of degraded lowlands areas surrounding springs. Biodiversitas. 14(1):37–42.
  • Sofiah S, Fika AP. 2010. Jenis-jenis pohon disekitar mata air dataran tinggi dan rendah (studi kasus Kabupaten Malang) [Tree species around springs at highlands and lowlands (case study of Malang Regency)]. J Berkala Penelitian Hayati Ed Khusus. 4A:1–3.
  • Solikin. 2013. Diversity of bamboos around springs in Malang East Java. J Bio Res. 19:38–42.
  • Sosef MS, Hong LT, Prawirohatmodjo S. 1998. Plant Resources of South-East Asia. Backhuys.
  • Starr F, Starr K, Loope L. 2003. Ficus benjamina. Maui: Haleakala Field Station, US Geological Survey Biological Sciences Division (US); [accessed 2018 June 26]. http://www.hear.org/starr/hiplants/reports/htm/ficus_benjamina.htm
  • Sudarmadji S, Darmanto D, Widyastuti M, Lestari S. 2015. Pengelolaan mata air untuk penyediaan air rumah tangga berkelanjutan di lereng gunung merapi [Management of springs for the supply of sustainable household water on the slopes of Mount Merapi]. J Man Ling. 23(1):102–110.
  • Surono TB, Sudarni I. 1992. Peta Geologi Regional Lembar Surakarta-Giritontro, Jawa [Geological map of the Surakarta-Giritontro Quadrangles, Jawa]. Pusat Penelitian dan Pengembangan Geologi Bandung.
  • Tamalene M, Al Muhdar M, Surasini E, Rochman F. 2014. The practice of local wisdom of Tobelo Dalam (Togutil) tribal community in forest conservation in Halmahera, Indonesia. Int J Plant Res. 4(4A):1–7.
  • TerBraak CJ, Barendregt L. 1986. Weighted averaging of specie indicator values: its efficiency in environmental calibration. Math Biosci. 78(1):57–72.
  • TerBraak C, Vendonschot P. 1995. Canonical correspondence analysis and related multivariate methods in aquatic ecology. Aquat Sci. 57(3):255–289.
  • Toledo M, Peña-Claros M, Bongers F, Alarcón A, Balcázar J, Chuviña J, Leaño C, Licona JC, Poorter L. 2012. Distribution patterns of tropical woody species in response to climatic and edaphic gradients. J Ecol. 100(1):253–263.
  • Trimanto. 2013. Diversitas pohon sekitar aliran mata air di kawasan Pulau Moyo Nusa Tenggara Barat. Surakarta: FKIP Universitas Sebelas Maret. Pros Sem Biol. 10(2):434–438.
  • University of Calgary. 2012. Groundwater Discharge. Calgary (CAN): University of Calgary. (Groundwater Connection Fact Sheet Series; p. 1–5).
  • USGS: USGS Science for a Changing world. 2018. [accessed 2018 October 17]. http://water.usgs.gov/edu/earthgwaquifer.html
  • VanLaar A, Akca A. 2007. Forest mensuration (Vol.13). Dordrecht: Springer Science & Bussines Media.
  • Verma R, Jayanti T, Vinoda S, Shivappa A. 2015. Tree species as indicators of groundwater recharge and discharge. Int J Eng Tech Res. 3(11):127–135.
  • Wang C, Zhao C, Xu Z, Wang Y, Peng H. 2013. Effect of vegetation on soil water retention and storage in semi-arid alpine forest catchment. J Arid Land. 5(2):207–219.
  • Wei XH, Sun G, Liu S, Jiang H, Zhou G, Dai L. 2008. The forest-streamflow relationship in China: a 40-years retrospect. J Am Water Resour As. 44(5):1076–1085.
  • Weiler M. 2005. An infiltration model based on flow variability in macropores: development, sensitivity analysis and applications. J Hydrol. 310(1–4):294–315.
  • Wenjie L, Pengju L, Hongmei L, Weinping D. 2006. Estimation of evaporation rate from soil surface using stable isotopic composition of throughfall and stream water in a tropical seasonal rain forest of Xishuangbanna, Southwest China. Acta Ecol Sinica. 26(5):1303–1310.
  • Winter TC. 2001. The concept of Hydrologic Landscapes. J Am Water Resources Assoc. 37(2):335–349.
  • Winter TC, Harvey JW, Franke OL, Alley WM. 1998. Ground water and surface water a single resource. Colorado: USGS.
  • Wu GL, Liu Y, Yang Z, Cui Z, Deng L, Chang XF, Shi ZH. 2017. Root channals to indicate the increase in soil matrix water infiltration capacity of arid reclamed mine soils. J Forest Hydrol. 546:133–139.
  • Yamada I. 1990. The changing pattern of vertical stratification along an altitudinal gradient of the forests of Mt Pangrango, West Java. In: The plant diversity of Malesia. Dordrecht: Springer; p. 177–191.
  • Yuliantoro D, Atmoko BD, Siswo. 2016. Pohon Sahabat Air [Trees, water mate]. Surakarta: BPPTPDAS [Watersheed Management Technology Center (WMTC)].
  • Yulistyarini T, Sofiah S. 2011. Valuing quality of vegetation in recharge area of seruk spring, Pesanggrahan Valley, Batu City, East Java. Biodiversitas. 12(4):229–234.
  • Zhang YK, Schilling KE. 2006. Increasing streamflow and baseflow in Missisippi River since 1940 s: effect of land use change. J Hydrol. 324(1–4):412–422.
  • Zhu Y, Ren L, Skaggs T, Lu H, Yu Z, Wu Y, Fang X. 2009. Simulation of Populus euphratica root uptake of groundwater in an arid woodland of the Ejina Basin, China. Hydrol Process. 23:2460–2469.
  • Zwieniecki MA, Newton M. 1995. Roots growing in rock fissures: their morphological adaptation. Plant Soil. 172(2):181–187.

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