Respons Fisiologi 2 Genotip Kedelai Terhadap Pemberian α-Tokoferol Pada Lahan Salin
35
DAFTAR PUSTAKA
Adie, M. M danKrisnawati,A.2007.Biologitanamankedelai. Sumarno,Suyamto,
WidjonoA,Hermanto,KasimH,editor.Kedelai:
TeknikProduksidan
Pengembangan.Bogor
(ID):
Pusat
Penelitiandan
PengembanganTanaman pangan. hlm45-73.
Aini, N.,Sumiya, W.D. Y., Syekhfani., Dyah,R. P. dan Setiawan, A. 2014. Kajian
Pertumbuhan, Kandungan Klorofil dan Hasil Beberapa Genotip Tanaman
Kedelai (Glycine max L.) Pada Kondisi Salinitas.
Arnon, D.I. 1949. Copper Enzymes In Isolated Chloroplasts. Polyphenol oxidase
in Beta vulgaris. Plant Physiol. 24: 1-15
Aroca,R.,IrigoyenJ.
J.
dan
Diaz,M.
S.2001Photosynthetic
characteristicsandprotective
mechanismsagainstoxidativestressduringchillingandsubsequentrecovery
intwomaizevarietiesdifferinginchillingsensitivity.PlantScience161:719–
726.
(Bappenas) Badan Perencanaan Pembangunan Nasional. 2015. Rencana
pembangunan jangka menengah nasional (RPJMN) bidang pangan dan
pertanian 2015-2019. Direktorat Pangan dan Pertanian, Bappenas.
(Internet). 413 hlm; (diunduh 27 Desember 2016).
Bosch, S.M.dan Alegre, L. 2002. The function of tocopherols and tocotrienols in
plants. Crit. Rev. Plant Sci 21:31-57
Burry, B. J., Dopler-Nelosn M. dan Neidllinger T. R. 2003. Measurument of the
MayorIsoforms of Vitamin A and E and Carotenoids in the Blood of
People with Spinal-Cord Injures. J. Chromatogr A 987: 359-366.
Dionisio-Sese, M.L.and
Tobita,S.(1998).
Antioxidant Responses of Rice
Seedlings toSalinityStress. Plant Science135:1–9.
Dixon, R. A.dan Steele, C. L. 1999, Flavonoids and Isoflavone : a gold mine for
metablic engineering. Trends Plant Sci, 4, 394 -400
Djukri. 2009. Cekaman Salinitas Terhadap Pertumbuhan Tanaman. Prosiding
Seminar Nasional Penelitian dan Penerapan MIPA, Fakultas MIPA,
Universitas Negeri Yogyakarta. Yogyakarta
Dumet,D.danBenson,E.E.2000.Theuseof
physicalandbiochemicalstudiesto
elucidate and reduce cryopreservation-induced damage in hydrated/
desiccated plant germplasm. In Engelmann,F. and H. Takagi (Eds.).
CryopreservationofTropicalPlantGermplasm:CurrentResearchProgress
and Application.IPGRI.Rome-Italyp.43-56.
Universitas Sumatera Utara
36
El-Hendawy, S.E. 2004. Salinity tolerance in Egyptian springwheat genotypes.
Desertasi. University Munich-Weihenstephan. Jerman. 116 p.
Farouk, S. 2011. Ascorbic Acid and α-tocopherol Minimize Salt-induced Wheat
Leaf Senescence. J. Of. Stress Physiology and Biochemistry 7(3).
Follet, R. H., Murphy, L. S. dan Donahue, R. L. 1981. Fertilizer and Soil
Amandements. Prentice Hall Inc. Englewood. New Jersey.
Giannopolitis, C. N. dan Ries, S. K. 1997. Superoxide Dismutase. Plant Physiol.
59: 315-318
Greenway, H. dan Munns, R. 1980. Mechanisms of salt tolerance in
nonhalophytes. Annu. Rev.Plant. Physiol. 31: 149-190
Gupta,
S.K.,GuptaP.P.,YadavaT.P.,
dan
KaushikC.D.1990.Metabolic
changesinmustardduetoAlternarialeafblight.IndianPhytopathol.43(1): 6469
Harahap, R. K. 2016. Respon Pertumbuhan dan Produksi Kedelai
(GlycinemaxL.) F4 Tahan Salin Terhadap Pemberian Antioksidan.
Universitas Sumatera Utara. Medan
Hess, J.L. 1993. Vitamin E, a - tocopherol. In: R.G.Alscher and J.L. Hess (eds.)
antioxidants in higher plants. pp 111-134. CRC Press, Inc. Boca Rarton,
Florida.
Hussein, M.M., Balbaa, L.K. dan Gaballah, M.S. 2007. Developing a Salt
Tolerant Cowpea Using Alpha Tocopherol. J. Appl. Sci. Res., 3(10):
1234-1239
Jalali-Emam, S. M. S., Alizadeh, B., Zaefizadeh, M., Zakaraya, R. A. Dan
Khayatnezhad. 2011. Superoxise dismutase (SOD) activity in NaCl stress
in
salt-sensitive
and
salt-tolerance
genotypes
of
colza
(Brassica napus L.) Middle-East H.Sci. Res., 5: 17-27
Kao, W. Y., Tsai, T. T., Tsai, H. C. dan Shih, C. N. 2006. Response of three
Glycine species to salt sress. Environmental and Experimental Botany,
56 : 120-125
Krisnawati, A. dan Adie, M. M. 2009. Kendali Genetik dan Karakter Penentu
Toleransi Kedelai terhadap Salinitas. Iptek Tanaman Pangan. Diunduh di
pangan.litbang.pertanian.go.id/files/08-ayda.pdf pada tanggal 25
Desember 2016
Universitas Sumatera Utara
37
Kondettei, P., JawaliN., Apte, S.K. dan Shitole, M.G. 2012. Salt tolerance in
Indian soybean (Glycine max L.)Cultivars under saliniity stress to
germination characters. International journal of Agronomy and
Agricultural Research (IJAAR) 6(30): 48-56.
Kumalaningsih, S. 2006. Antioksidan Alami. Penangkal Radikal Bebas. Trubus
Agrisarana, Surabaya.
McKersie, B. D. dan Leshem, Y. Y. 1994. Stress and Stress Coping in Cultivated
Plants. Netherlands: Kluwer Academic Publishers. London.
Munné-Bosch, S., Schwarz, K., dan Alegre, L.1999. Enhaced fomationα –
tokoferol and highlyoxidizedabieten diterpenes in water stressed
rosemaru plants. Plant Physiol 121:1061-1068
Munns,R.danTester,M.2008.Mechanismofsalinitytolerance.AnnuRevPlantBiol.59:
651-681
Nakano, Y. dan Asada, K. 1981. Hydrogen Peroxide is Scavenged by
Ascorbatespecific Peroxidase in Spinach Chloroplasts. Plant and Cell
Physiol. 22 (5) : 867-880
Orcutt,D.M.andNilsen,E.T.(2000).Salinity.In:Physiology
ofPlantsUnderStress,
Soil and Biotic Factors. John Wiley&Sons, 177–237.
Pathan, S. M. D., Lee.,ShannonJ. G., dan Nguyen, H. T. 2007. Recent advances
in breeding for drought and salt strees tolerance in soybean. In: M. A.
Jenks et al., (Eds). Advances in molecular breeding toward drought and
salt tolerant crops. P. 739-773.
Pessarakli, M. 2011. Handbookof Plant and Crop Stress. CRC Press, New York.
Phang, T.H., Shao, G. and Lam, H.M. 2008. Salt tolerance in soybean. Journal of
Integrative Plant Biology, 50 (10) : 1196-1212.
Pinto, M. D. S. T., Juliana. M., Fransisco, P., Natoinel, F. Dan Katia, V. 2015.
Putification and characterization of a Peroxidase Present in Xilopodium
Exudates of Umbu Plants (Spondias tuberosa A.). J. Of Biotechnology.
UFT. Brasil 2 (5) : 121-141
Prihatman. 2000. Kedelai(GlycinemaxL.). http://www.ristek.go.id. Diakses pada
tanggal 26 Januari 2017
Prohazkova D., Sairam,R. K. G., Srivastava, C. dan Singh, D. V. 2001. Oxidative
Stress and Antioxidant Activity As The Basis of Senescence In Maize
Leaves. Plant Sci. 161:765-771.
Universitas Sumatera Utara
38
Rachman, A.,SubiksaI. G. M., dan Wahyunto.2007. Perluasanarealtanaman
kedelaike
lahan
suboptimal.
Kedelai:
Teknik
produksidanpengembangan, p.185-226. Puslitbangtan, Bogor.
Rodríguez A. A., Grunberg, K. A., Taleisnik E. L. 2002. Reactive Oxygen Species
inthe Elongation Zone of Maize Leaves Are Necessary for Leaf
Extension.Plant Physiol, 129 : 1627-1632.
Rosmayati, Rahmawati, N., Astari, R. P., dan Fachrina, W. 2015. Analisa
Pertumbuhan Vegetatif Kedelai Hibridasi Genotipa Tanah Salin dengan
Varietas Anjasmoro untuk Mendukung Perluasan Areal Tanaman di
Lahan Salin. Jurnal Pertanian Tropik, Vol. 2, No.2(17) : 132-139.
Sadak, M. S. dan Mona, G. W. 2014. Role of ascorbic acid and alpha tocopherol
in alleviating salinity stress on flax plant (Linum usitatissimumL.).
Journal of Stress Physiology and Biochemistry, Vol. 10 No. 1.
Salisbury, F. B. dan Ross, C. W. 1995. Fisiologi Tumbuhan. Jillid ke-3 Lukman
DR, Sumaryono, penerjemah; Niksolihin S, editor. Bandung: ITB.
Terjemahan dari: 114:187-194
Sergiev, I.,Alexieva,V. dan Karanov, E. 1997. Effect of Spermine, Atrazine and
Combination Between Them On Some Endogenous Protective Systems
and Stress Markers In Plants. Comptes Rendus de l’Academie Bulgare
des Sciences 51:121-124.
Sipayung, R. 2003. Stress Garam dan Mekanisme Toleransi Tanaman. Fakultas
Pertanian. Jurusan Budidaya Pertanian. Universitas Sumatera Utara,
Medan.
Smirnoff, N. dan Pallanca J. E.1996. Ascorbate metabolism in relation to
oxidativestress Biochemical Society Transactions24,472–478.
Soverda, N. dan Hermawati, T. 2009. Respon Tanaman Kedelai (Glycine max L.)
terhadap Pemberian Beragai Konsentrasi Pupuk Hayati. Universitas
Jambi, Jambi
Taiz, L. dan Zeiger. 2002. Plant Physiology. Sinauer Associates. Sunderland.690p
Van
Loon,
L.C.,Pierpoint,W.S., Boller,Th. dan Conejero, V.1994.
RecommendationsForNamingPlantPhatogenesis-RelatedProteins.Plant
MolecularBiologyReport. 12 : 245-264
Weisany, W., Sohrabri, Y., Heidari, G., Siosemardeh, A., dan Ghassemi-Gloezani,
K. 2012. Changes ini antioxidant enzymes activity and plant perfomance
by salinity stress and zinc aplication in soybean (Glycine max L.) Plant
Omics Journal 5(2):60-67
Universitas Sumatera Utara
DAFTAR PUSTAKA
Adie, M. M danKrisnawati,A.2007.Biologitanamankedelai. Sumarno,Suyamto,
WidjonoA,Hermanto,KasimH,editor.Kedelai:
TeknikProduksidan
Pengembangan.Bogor
(ID):
Pusat
Penelitiandan
PengembanganTanaman pangan. hlm45-73.
Aini, N.,Sumiya, W.D. Y., Syekhfani., Dyah,R. P. dan Setiawan, A. 2014. Kajian
Pertumbuhan, Kandungan Klorofil dan Hasil Beberapa Genotip Tanaman
Kedelai (Glycine max L.) Pada Kondisi Salinitas.
Arnon, D.I. 1949. Copper Enzymes In Isolated Chloroplasts. Polyphenol oxidase
in Beta vulgaris. Plant Physiol. 24: 1-15
Aroca,R.,IrigoyenJ.
J.
dan
Diaz,M.
S.2001Photosynthetic
characteristicsandprotective
mechanismsagainstoxidativestressduringchillingandsubsequentrecovery
intwomaizevarietiesdifferinginchillingsensitivity.PlantScience161:719–
726.
(Bappenas) Badan Perencanaan Pembangunan Nasional. 2015. Rencana
pembangunan jangka menengah nasional (RPJMN) bidang pangan dan
pertanian 2015-2019. Direktorat Pangan dan Pertanian, Bappenas.
(Internet). 413 hlm; (diunduh 27 Desember 2016).
Bosch, S.M.dan Alegre, L. 2002. The function of tocopherols and tocotrienols in
plants. Crit. Rev. Plant Sci 21:31-57
Burry, B. J., Dopler-Nelosn M. dan Neidllinger T. R. 2003. Measurument of the
MayorIsoforms of Vitamin A and E and Carotenoids in the Blood of
People with Spinal-Cord Injures. J. Chromatogr A 987: 359-366.
Dionisio-Sese, M.L.and
Tobita,S.(1998).
Antioxidant Responses of Rice
Seedlings toSalinityStress. Plant Science135:1–9.
Dixon, R. A.dan Steele, C. L. 1999, Flavonoids and Isoflavone : a gold mine for
metablic engineering. Trends Plant Sci, 4, 394 -400
Djukri. 2009. Cekaman Salinitas Terhadap Pertumbuhan Tanaman. Prosiding
Seminar Nasional Penelitian dan Penerapan MIPA, Fakultas MIPA,
Universitas Negeri Yogyakarta. Yogyakarta
Dumet,D.danBenson,E.E.2000.Theuseof
physicalandbiochemicalstudiesto
elucidate and reduce cryopreservation-induced damage in hydrated/
desiccated plant germplasm. In Engelmann,F. and H. Takagi (Eds.).
CryopreservationofTropicalPlantGermplasm:CurrentResearchProgress
and Application.IPGRI.Rome-Italyp.43-56.
Universitas Sumatera Utara
36
El-Hendawy, S.E. 2004. Salinity tolerance in Egyptian springwheat genotypes.
Desertasi. University Munich-Weihenstephan. Jerman. 116 p.
Farouk, S. 2011. Ascorbic Acid and α-tocopherol Minimize Salt-induced Wheat
Leaf Senescence. J. Of. Stress Physiology and Biochemistry 7(3).
Follet, R. H., Murphy, L. S. dan Donahue, R. L. 1981. Fertilizer and Soil
Amandements. Prentice Hall Inc. Englewood. New Jersey.
Giannopolitis, C. N. dan Ries, S. K. 1997. Superoxide Dismutase. Plant Physiol.
59: 315-318
Greenway, H. dan Munns, R. 1980. Mechanisms of salt tolerance in
nonhalophytes. Annu. Rev.Plant. Physiol. 31: 149-190
Gupta,
S.K.,GuptaP.P.,YadavaT.P.,
dan
KaushikC.D.1990.Metabolic
changesinmustardduetoAlternarialeafblight.IndianPhytopathol.43(1): 6469
Harahap, R. K. 2016. Respon Pertumbuhan dan Produksi Kedelai
(GlycinemaxL.) F4 Tahan Salin Terhadap Pemberian Antioksidan.
Universitas Sumatera Utara. Medan
Hess, J.L. 1993. Vitamin E, a - tocopherol. In: R.G.Alscher and J.L. Hess (eds.)
antioxidants in higher plants. pp 111-134. CRC Press, Inc. Boca Rarton,
Florida.
Hussein, M.M., Balbaa, L.K. dan Gaballah, M.S. 2007. Developing a Salt
Tolerant Cowpea Using Alpha Tocopherol. J. Appl. Sci. Res., 3(10):
1234-1239
Jalali-Emam, S. M. S., Alizadeh, B., Zaefizadeh, M., Zakaraya, R. A. Dan
Khayatnezhad. 2011. Superoxise dismutase (SOD) activity in NaCl stress
in
salt-sensitive
and
salt-tolerance
genotypes
of
colza
(Brassica napus L.) Middle-East H.Sci. Res., 5: 17-27
Kao, W. Y., Tsai, T. T., Tsai, H. C. dan Shih, C. N. 2006. Response of three
Glycine species to salt sress. Environmental and Experimental Botany,
56 : 120-125
Krisnawati, A. dan Adie, M. M. 2009. Kendali Genetik dan Karakter Penentu
Toleransi Kedelai terhadap Salinitas. Iptek Tanaman Pangan. Diunduh di
pangan.litbang.pertanian.go.id/files/08-ayda.pdf pada tanggal 25
Desember 2016
Universitas Sumatera Utara
37
Kondettei, P., JawaliN., Apte, S.K. dan Shitole, M.G. 2012. Salt tolerance in
Indian soybean (Glycine max L.)Cultivars under saliniity stress to
germination characters. International journal of Agronomy and
Agricultural Research (IJAAR) 6(30): 48-56.
Kumalaningsih, S. 2006. Antioksidan Alami. Penangkal Radikal Bebas. Trubus
Agrisarana, Surabaya.
McKersie, B. D. dan Leshem, Y. Y. 1994. Stress and Stress Coping in Cultivated
Plants. Netherlands: Kluwer Academic Publishers. London.
Munné-Bosch, S., Schwarz, K., dan Alegre, L.1999. Enhaced fomationα –
tokoferol and highlyoxidizedabieten diterpenes in water stressed
rosemaru plants. Plant Physiol 121:1061-1068
Munns,R.danTester,M.2008.Mechanismofsalinitytolerance.AnnuRevPlantBiol.59:
651-681
Nakano, Y. dan Asada, K. 1981. Hydrogen Peroxide is Scavenged by
Ascorbatespecific Peroxidase in Spinach Chloroplasts. Plant and Cell
Physiol. 22 (5) : 867-880
Orcutt,D.M.andNilsen,E.T.(2000).Salinity.In:Physiology
ofPlantsUnderStress,
Soil and Biotic Factors. John Wiley&Sons, 177–237.
Pathan, S. M. D., Lee.,ShannonJ. G., dan Nguyen, H. T. 2007. Recent advances
in breeding for drought and salt strees tolerance in soybean. In: M. A.
Jenks et al., (Eds). Advances in molecular breeding toward drought and
salt tolerant crops. P. 739-773.
Pessarakli, M. 2011. Handbookof Plant and Crop Stress. CRC Press, New York.
Phang, T.H., Shao, G. and Lam, H.M. 2008. Salt tolerance in soybean. Journal of
Integrative Plant Biology, 50 (10) : 1196-1212.
Pinto, M. D. S. T., Juliana. M., Fransisco, P., Natoinel, F. Dan Katia, V. 2015.
Putification and characterization of a Peroxidase Present in Xilopodium
Exudates of Umbu Plants (Spondias tuberosa A.). J. Of Biotechnology.
UFT. Brasil 2 (5) : 121-141
Prihatman. 2000. Kedelai(GlycinemaxL.). http://www.ristek.go.id. Diakses pada
tanggal 26 Januari 2017
Prohazkova D., Sairam,R. K. G., Srivastava, C. dan Singh, D. V. 2001. Oxidative
Stress and Antioxidant Activity As The Basis of Senescence In Maize
Leaves. Plant Sci. 161:765-771.
Universitas Sumatera Utara
38
Rachman, A.,SubiksaI. G. M., dan Wahyunto.2007. Perluasanarealtanaman
kedelaike
lahan
suboptimal.
Kedelai:
Teknik
produksidanpengembangan, p.185-226. Puslitbangtan, Bogor.
Rodríguez A. A., Grunberg, K. A., Taleisnik E. L. 2002. Reactive Oxygen Species
inthe Elongation Zone of Maize Leaves Are Necessary for Leaf
Extension.Plant Physiol, 129 : 1627-1632.
Rosmayati, Rahmawati, N., Astari, R. P., dan Fachrina, W. 2015. Analisa
Pertumbuhan Vegetatif Kedelai Hibridasi Genotipa Tanah Salin dengan
Varietas Anjasmoro untuk Mendukung Perluasan Areal Tanaman di
Lahan Salin. Jurnal Pertanian Tropik, Vol. 2, No.2(17) : 132-139.
Sadak, M. S. dan Mona, G. W. 2014. Role of ascorbic acid and alpha tocopherol
in alleviating salinity stress on flax plant (Linum usitatissimumL.).
Journal of Stress Physiology and Biochemistry, Vol. 10 No. 1.
Salisbury, F. B. dan Ross, C. W. 1995. Fisiologi Tumbuhan. Jillid ke-3 Lukman
DR, Sumaryono, penerjemah; Niksolihin S, editor. Bandung: ITB.
Terjemahan dari: 114:187-194
Sergiev, I.,Alexieva,V. dan Karanov, E. 1997. Effect of Spermine, Atrazine and
Combination Between Them On Some Endogenous Protective Systems
and Stress Markers In Plants. Comptes Rendus de l’Academie Bulgare
des Sciences 51:121-124.
Sipayung, R. 2003. Stress Garam dan Mekanisme Toleransi Tanaman. Fakultas
Pertanian. Jurusan Budidaya Pertanian. Universitas Sumatera Utara,
Medan.
Smirnoff, N. dan Pallanca J. E.1996. Ascorbate metabolism in relation to
oxidativestress Biochemical Society Transactions24,472–478.
Soverda, N. dan Hermawati, T. 2009. Respon Tanaman Kedelai (Glycine max L.)
terhadap Pemberian Beragai Konsentrasi Pupuk Hayati. Universitas
Jambi, Jambi
Taiz, L. dan Zeiger. 2002. Plant Physiology. Sinauer Associates. Sunderland.690p
Van
Loon,
L.C.,Pierpoint,W.S., Boller,Th. dan Conejero, V.1994.
RecommendationsForNamingPlantPhatogenesis-RelatedProteins.Plant
MolecularBiologyReport. 12 : 245-264
Weisany, W., Sohrabri, Y., Heidari, G., Siosemardeh, A., dan Ghassemi-Gloezani,
K. 2012. Changes ini antioxidant enzymes activity and plant perfomance
by salinity stress and zinc aplication in soybean (Glycine max L.) Plant
Omics Journal 5(2):60-67
Universitas Sumatera Utara