10Oct 2017

THE DYNAMICS OF PH, EC AND REDOX OF POND SOIL AFTER APPLICATION OF HUMIC ACID.

  • Department of Environment, Faculty of Civil and Environmental Engineering, Universitas Pembangunan Nasional "Veteran" East Java, Indonesia.
  • Department of Soil Science - Agrotechnology, Faculty of Agriculture, Universitas Pembangunan Nasional "Veteran" East Java, Indonesia.
  • Departemen Of Administration Businiss Universitas, Faculty Of Political Social Since Pembangunan Nasional ?Veteran? East Java, Indonesia
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One role of humic acid is a buffer agent to control the stability of the soil reaction. A field experiment with the applications of humic acid with doses 0 and 6 kg/ha of shrimp pond soil are added 2 weeks before seed stocking. Seedsare stocked with a density of 1000 fries per hectare. The experimental results indicate that administration of humic acids alter the pH, EC, and Redox of soil and water. Average of water pH value before and after experiment each are 7.51 and 7.16. Soil pH, EC and redox values before and after the administration of humate each are 7.51 and 7.48, -22.83 and -5.00, and 129.67 and 63.33 ppm. Average shrimp weight of 2 months 10 days old is 16.46 with a range of 14.8 - 18.9 g or equivalent of size 50-60. These conditions are suitable for fish or shrimp.

  1. Arancon,normanq.;Edwards,Clive.A.;Lee,Stephen;Byrne,Robert(2006)."Effectsofhumicacidsfromvermicompostsonplantgrowth"(PDF).europeanjournalofsoil Biology42:S65.doi:10.1016/j.ejsob2006.06.004
  2. Ahmad.M.A..2010.manajemensumberdayaperairan,fakultasperikanandanilmu Kelautan.universitaskhairun. Ternate.
  3. Amin,M.2010.penggunaankotoransapisebagaipupukorganikpaoabudidayaudang Winou(panaeusmonodonfabricius)01Tambabalairisetperikanan budidayaairpayau,pusatrisetperikanan Budidaya,badanrisetkelautandan Perikanan,kementriankelautandanperikanan.10Hal
  4. Anaya-Olvera,A.2009.methodofobtainingaconcentratehumicextractfromorganic andinorganicsources.patentno:Us7,510,590,B2.
  5. Zagorskis, A. 2007.investigationinto determiningthehumidityof chargeusedforbiological Air Treatme Deptofenvironmental rotection, Vilnius Gediminas Technical University,Saulėtekio Al. 11,Lt-10223 Vilnius,Lithuania
  6. Blatt M.R.,Leyman B and Grabov A. 1998. Cellular responses to waterstreIn: Shinozaki K, ed. Cold, drought, heat and salt stress: molecular responses in higher plants. RG Landes Co. 99-124 p.
  7. Badan Penelitian Dan Pengembangan Pertanian ,2005. Rencanaaksi Pemantapan Ketahanan Pangan 2005-2010 , DEPARTEMENPERTANIAN
  8. Baigorrir;fuentesm;Gonz?lez-gaitanog;Garc?a-minajm;almendrosg;Gonz?lez- vilafj.(2009)."Complementary multianalyticalapproachtostudythedistinctive structuralfeaturesofthemainhumicfractionsinsolution:grayhumicacid,
  9. Bethune M. G.andbate J.2007. Impact on soilhydraulicpropertiesresultingfrom irrigatingsaline?sodicsoils with lowtambakitywater.Australian Journal of Experimental Agriculture 47 (4):
  10. Hoerbe Andrighett 2010. Cation dynamicsinsoils With differentsalinitylevels Growing Irrigated Rice.R. Bras. Ci. Solo, 34:1851-1863
  11. Ghafoor, M.A.Gill, A. Hassan, G. Murtaz Qadir .2001. Gypsum: An Economical Amendment foramelioration ofsalinesodicwaters andsoils, and forimproving Crop Yields .INTERNATIONALJOURNALOFAGRICULTURE & BIOLOGY 1560- 8530, 03-3-266-275
  12. Jumberi, A dan yufdym. P. 2007. Potensi penanaman tanaman serealiadan sayuran pada tanah terkenadampak tsuami. Balai Penelitian Tanah rawadanbalai Pengkajian Teknologi Pertanian sumatrautara
  13. Lehann, J. And Joseph. S. 2009. Biochar for Environmental Managemelondonsterling,valevitt, J. 1980. Responses ofplant to Environmental Stress. Academicpress. 227 p.
  14. Mindari, W. Syekhfani, dan Kusuma,Z. 2004. Reklamasi lahansalinpantai untuk tanaman kacangpanjangdan lom Tesiss-2 Pengelolaan Tanah dan airunibraw- Malang.
  15. Mindari, W., Maroeto, dan Syekhfa 2009. Ameliorasi airsalinmenggunakan Pupuk Organik untuk meningkatkan Produksi tanamankedelai dan Jagungdalam Rotasi. Penelitian Hibah bersaingdp2m diktita.2009.
  16. Munawar, Purnomo E, 2012, Mobilitas unsurlogam padahabitat mangrovedan Korelasinya denganlimbahindustri dan Kualitas Tambak,Penelitian Hibah Fundamental DP2M diktita.2012.
  17. Munawar A,Kusuma,Z,Purnomo E, , 2013, Aplikasi teknologibioremediasi dengan Teknik Biostemulasi sangat Efektif untuk Penanggulangan bencanatumpahan minyakdikawasan Pesis DP2M? diktita.2013
  18. Munawar Ali1 And Wanti Mindari2. 2016. EFFECT OF HUMIC ACID ON SOIL CHEMICAL AND PHYSICAL CHARACTERISTICS OF EMBANKMENT .. MATEC Web Of Conferences. 58. The 3rd Bali International Seminar On Science & Technology (BISSTECH 2015). Bali, Indonesia,?October 15-17, 2015.? J. Jamari, R. Handogo And E. Suryani (Eds.)
  19. Brownhumicacid,andfulvicacid".jagricfoodchem.57(8):3266? 72. Doi:10.1021/jf8035353. PMID19281175.
  20. Bohn,H., mcneal,B.L.ando?connor,G.A.2001.soilchemistry, thirdedition.John Wiley&Sons.Inc.307p.
  21. Busatoj.G.;D.B.Zandonadi;L.B.Dobbss;A.R..Fa?anha;L.P.Canellas.2010.Humic substancesisolatedfromresiduesofsugarcaneindustryasrootgrowth Promoter.Sci.Agric.(Piracicaba,Braz.),.67(2):206-212,
  22. Canellas,L.P.andf.L.Olivares.2014.Physiologicalresponsestohumicsubstancesas plantgrowthpromoter.chemicalandbiologicaltechnologiesinagriculture,1:3 http://www.chembioagro.com/content/pdf/2196-5641-1-3
  23. ?elik,H.,Katkat,A.V.,Aşik,B.B., Turan,M.A.2010.Effectofhumusongrowthand nutrientuptakeofmaize under saline and calcareous conditions.Agriculture 97(4):15-
  24. Chen,Y, Senesi,? N.? And? Schnitzer,? M.? 1977.Information provided on humic substances bye4:e6ratios.soilsciencesocietyofamericajournal41: 352?358
  25. Chen,C.H.H.,Ahmed,O.H.,Majid,N.M.Ab.andjalloh,M.B..2009.Reductionof isolationperiodofcoalhumicacids.americanjournalofappliedsciences6 (7):1327-1330.
  26. Cooper,R.J.;Liu,Chunhua;Fisher,D.S.(1998)."influenceofhumicsubstanceson rootingandnutrientcontentofcreepingbentgrass".cropscience38(6): 1639.doi:10.2135/cropsci1998.0011183x003800060037x.
  27. EladiaM.P.M?ndez,J.Havel,2005.Humicsubstancecompoundsofstillunknown structure:applicationsinagriculture,industry,environment,andbiomedicinejiř? Patočka3J.Appl.Biomed.3:13.24,
  28. Fiorentinog.,spaccinir.,piccoloa(2006)."Separationofmolecularconstituentsfroma humicacidbysolid-phaseextractionfollowingatransesterification reaction".Talanta68(4):1135?1142. Doi:10.1016/talanta.2005.07.037.PMID18970442.
  29. Ghabbour,E.A.;Davies,G.(Editors)(2001).humicsubstances:Structures,Modelsand Functions.Cambridge,U.K.:rscpublishing. ISBN978-0-85404-811-3.
  30. Goudarzim.andpakniyat,H.2008.Comparisonbetweensalttoleranceofvarious cultivarsofwheatandmaize.journalofappliedsciences8(12):2300-2305
  31. Khaled,H.andh.A.Fawy.2011.effectofdifferentlevelsofhumicacidsonthe nutrientcontent,plantgrowth,andsoilpropertiesunderconditionsofsalinity .Soil&waterres.,6(1):21?29
  32. Kep.Men.lhno.51thn.2004bakumutuairlaut,untukbiotalaut;ppno.82Tahun 2001.pengelolaankualitasairdanpengendalianpencemaranairkeputusan dirjenpomno.03725/B/SK/VII/89
  33. Kononova, M.M. 1966. Soil Organic Matter, itsnature,itsroleinsoilformation andlevitt,J.1980.responsesofplanttoenvironmentalstress.Academic Press.227p.
  34. Lapedes,danieln.,ed.(1966). Mcgraw-Hillencyclopediaofscienceandtechnology:aninternationalreferencework,Volume12.mcgraw-Hillp.428. ISBN0070452652.Thevalueofaddingorganicmattertothesoilintheformofanimalmanures, greenmanures,andcropresiduesforproducingfavorablesoiltilthhasbeen knownsinceancienttimes
  35. Levitt,J.1980.responsesofplanttoenvironmentalstress.academicpress.227p.
  36. Lebojr.S.E.,Kevin.W.R.,Stephen,W.anddickman,L.1997.Productionofoxidized humicacidsbyanoxygen-alkali.Process5:688-999.
  37. Liu,Chunhua;Cooper,R.J.(August1999). "humicsubstancestheirinfluenceoncreepingbentgrassgrowthandstresstolerance"(PDF).turfgrasstrends:6. Lucas,A.;Harris,J.R.(1998). Ancientegyptianmaterialsandindustrienewyork:Dover Publications.p.49. ISBN0-486-40446-3.
  38. Lutan,R.Y.1999.Karakterisasiasamhumatdarisedimenhutanlindungbakau (mangrove)muaraangketelukjakarta.FMIPA-UI.Abstrak.
  39. Machluddinamin,2010.penggunaankotoransapisebagaipupukorganikpaoabudidayaudangwinou(panaeusmonodonfabricius)01Tambabalairiset perikananbudidayaairpayau,pusatrisetperikananbudidaya,badanriset kelautandanperikanan,kementriankelautandanperikanan.10Hal.
  40. Mikkelsen,R.L.2005.Humic materialsforagriculture.bettercrops89(3):6-10.
  41. Moberlyp.K.anH.Meyer.1978.filtercake-afieldandglasshouse Evaluationsouthafricansugarassociation
  42. experimentstation,Mount Edgecombe.proceedingsofthesouthafricansugar Technologists' Association
  43. Osan,MA,mammohamed,mhhalidanadgal-Afifassessmentofagriculture drainagewaterqualitytobeusedforfishfarmirrigation
  44. Oliver,barryg.(1983)."Dihaloacetonitrilesindrinking water:Algaeandfulvicacidas precursors".environmentalscience&Technology17(2): 80. Bibcode:1983enst...17...80O.doi:10.1021/es00108a003.
  45. Panamericanunion.Dept.ofculturalaffairs.divisi?ndefomentocient?fico,Pan americanunion.Dept.ofscientificaffairs,organization ofamericanstates.Dept. Ofscientificaffairs(1984). Cienciainteramericana:Volumes24?27.Andsince plantshaveshowntheirabilitytoabsorbandtranslocatethecomplexmoleculesof systemicinsecticides,theycannolongerdiscredittheideathatplantsareableto absorbthesolublehumicnutrients,containingbyfar..?.
  46. Peters,ruudj.B.;deleer,edw.B.;degalan,Leo(1990)."dihaloacetonitrilesindutch drinkingwaters".waterresearch24(6):797. Doi:10.1016/0043-1354(90)90038-8.
  47. Piccolo,A.(2002)."thesupramolecularstructureofhumicsubstances.Anovel understandingofhumuschemistryandimplicationsinsoilscience".Advancesin Agronomy.advancesinagronomy75:57?134.doi:10.1016/S0065- 2113(02)75003-7. ISBN978-0-12-000793-6.
  48. Sparks,D.L.,2003.environmentalsoilchemistry.secondeditioUniversityof Delaware.academicpress
  49. Stevenson,F.J.(1994).humuschemistry:Genesis,Composition,Reactions,Wiley&Sons,newyork,1994,pp.188-210,
  50. Stevensonf.J.(1994).humuschemistry:Genesis,Composition,Reactionnewyork: johnwiley&Sons
  51. Tipping,E(1994)."'WHAM?achemicalequilibriummodelandcomputercodeforwaters, sediments,andsoilsincorporatingadiscretesite/electrostaticmodelofion-binding byhumicsubstances".computersandgeosciences20(6):973?1023. Bibcode:1994CG.....20..973T. Doi:10.1016/0098-3004(94)90038-8.
  52. Tan,K.H.2014.Humicmatterinsoilandtheenvironment:principlesandcontroversies. 2nded.bocaranton:crcpress,.
  53. Yamauchi,Masashige;Katayama,Sadamu;Todoroki,Toshiharu;Watanable,Toshio (1984)."Totalsynthesisoffulvicacid".journalofthechemicalsociety,Chemical Communications(23):1565?6.doi:10.1039/C39840001565.Synthesisoffulvic acid(1a)wasaccomplishedbyarouteinvolvingselectiveozonizationof9- propenylpyranobenzopyran(1c),obtainedbyaregioselectivecyclizationofthe2- methylsulphinylmethyl1,3-dione(3).

[Munawar Ali, Wanti Mindari and Eddy Poernomo. (2017); THE DYNAMICS OF PH, EC AND REDOX OF POND SOIL AFTER APPLICATION OF HUMIC ACID. Int. J. of Adv. Res. 5 (Oct). 187-192] (ISSN 2320-5407). www.journalijar.com

niswatin hasanah
universitas pembangunan nasional

DOI:

Article DOI: 10.21474/IJAR01/5521      
DOI URL: https://dx.doi.org/10.21474/IJAR01/5521

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