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Solubilization of silicate from quartz mineral by potential silicate solubilizing bacteria (Pelarutan silika asal mineral kuarsa oleh bakteri pelarut silika potensial ) Laksmita Prima SANTI; Didiek Hadjar GOENADI
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Silicon (Si) is the second most abundant materials, existing as a compound of several minerals in the soil varies from 50 to 400 g Si per kg of soil. Silicon has positive influence on the plant resistance to various abiotic and biotic stressors such as salinity, drought, heavy metal toxicities and diseases. Although Si is abundant in soil, most of its sources are not available for plant uptake due to low solubility of Si compounds in soil. To improve plant-available Si in the soil, silicate solubilizing bacteria (SSB) are potentially important in solubilizing insoluble forms of silicate. The objectives of this study were to determine: (i) biochemical characteristics of SSB, and (ii) silicate solubilizing activity of Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, and B. vietnamiensis ZEO3 in magnesium trisilicate (2MgO·3SiO2) and quartz mineral. A laboratory study was conducted at Microbiology and Environment Laboratory, the Indonesian Research Institute for Biotechnology and Bioindustry, Bogor, in 2016. All SSB were grown on Bunt and Rovira media containing 0.25% magnesium trisilicate or quartz mineral as substrate, respectively. Silica solubilizing activities by SSB were determined by using inductively coupled plasma-atomic emission spectrometry while organic acid concentration in the culture were measured by using high-performance liquid chromatography (HPLC). The results indicate that no correlation between solubilizing silicate activity and clear zone on solid Bunt and Rovira media. B.cenocepacia KTG, A.punctata RJM 3020, and B. vietnamiensis ZEO3 isolates were capable of producing citric, acetic, and oxalic acid in various optimum incubation time and accelerating the solubilization of SiO2 originated from quartz with Si solubility at 96-hour incubation time are 0.76; 0.86; and 0.70 ppm respectively. [Key words: Silicate solubilizing bacteria (SSB); Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, and silisic acid]. Abstrak Silika (Si) merupakan unsur kedua paling banyak dijumpai di dalam tanah dengan konsentrasi yang sangat beragam antara 50-400 g Si per kg tanah. Silika memberikan pengaruh positif pada ketahanan tanaman terhadap berbagai cekaman abiotik dan biotik seperti salinitas, kekeringan, toksisitas logam berat, dan penyakit. Meskipun berlimpah, sebagian besar sumber Si tidak tersedia bagi tanaman, karena kelarutan senyawa Si di dalam tanah cukup rendah. Untuk meningkatkan kelarutan Si di dalam tanah, bakteri pelarut silika berperan penting melarutkan silika dalam bentuk tidak larut. Penelitian ini bertujuan untuk menetapkan: (i)karakterisasi secara biokimia bakteri pelarut silika, dan (ii) kemampuan melarutkan silika dari sumber magnesium trisilika dan mineral kuarsa oleh Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, dan B. vietnamiensis ZEO3. Kegiatan penelitian dilakukan di Laboratorium Mikrobiologi dan Lingkungan, Pusat Penelitian Bioteknologi dan Bioindustri Indonesia, Bogor, tahun 2016. Bakteri pelarut silika potensial ditumbuhkan di dalam medium Bunt dan Rovira yang mengandung masing-masing 0, 25% magnesium trisilikat atau kuarsa sebagai substrat. Aktivitas pelarutan silika oleh bakteri pelarut silika ditetapkan dengan spektrofotometer emisi atom dan produksi asam organik diukur dengan kromatografi cair kinerja tinggi (HPLC). Hasil penelitian ini menunjukkan bahwa tidak ada korelasi antara aktivitas pelarutan silika dengan zona jernih yang terbentuk dalam medium padat Bunt dan Rovira. Isolat B. cenocepacia KTG, A. punctata RJM3020, dan B. vietnamiensis ZEO3 dapat menghasilkan asam sitrat, oksalat, dan asetat dengan waktu inkubasi optimum yang bervariasi. Ketiga isolat tersebut juga dapat melarutkan SiO2 yang berasal dari mineral kuarsa dengan nilai kelarutan Si pada inkubasi 96 jam masing-masing sebesar 0,76;0,86; dan 0,70 ppm. [Kata kunci: bakteri pelarut silika, Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, asam silikat.]

Enhanced solubilization of insoluble silicate from quartz and zeolite minerals by selected Aspergillus and Trichoderma species Laksmita Prima SANTI
E-Journal Menara Perkebunan Vol 88, No 2 (2020): Oktober,2020
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v88i2.381

Silicon (Si) is a major component of sand, silt and clay particles of soils. Available silica as silicic acid (H4SiO4) present in soil solution is considerably low, only in the range of 3.5–40.0 mg Si L-1. To improve plant-available Si in the soil, silicate-solubilizing fungi (SSF) are potentially important in solubilizing insoluble forms of silicate (SiO2). The objectives of this study were to determine silicate solubilizing capacity and organic acid produced by seven SSF isolates on Bunt and Rovira media by using 0.25% (w/v) magnesium trisilicate (Mg2O8Si3), quartz, and zeolite as a silica source. Determination of SSF isolates potential in Si solubilization was carried out in a completely randomized design with three silica sources and three replicates. The results indicated that all SSF were capable of producing acetic, citrate, and oxalic acids and enhancing the solubilization of insoluble silicates. Trichoderma polysporum and Aspergillus niger BCCF194 were the best isolates of SSF. Furthermore, there was significantly (p<0.05) positive correlation between solubilizing silicate capacity by using quartz or zeolite as a silica source on Bunt and Rovira media with incubation time (R2 = 0.79-0.99) and citric acid production (R2= 0.97-0.99) from T. polysporum and A. niger BCCF194

Application of silica solubilizing bacteria increases water efficiency in maize Indah Puspita SARI; Yulin LESTARI; HAMIM HAMIM; Laksmita Prima SANTI
E-Journal Menara Perkebunan Vol 90, No 1 (2022): April, 2022
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v90i1.493

Abstract Global climate change will result in decreased rainfall and increased evaporation. Thus, it is estimated that the frequency and severity of drought stress will get worse. Silica increases plant drought resistance by improving water use efficiency in plants. Despite its abundant availability in soil, most silica sources are not available to plants due to their low solubility. Silica solubilizing bacteria (SSB) have an important role in increasing the available silica. This study aims to observe the silica solubilizing activity of three SSB isolates collections of PPBBI on insoluble silica sources, including magnesium trisilicate, quartz, and feldspar, and see their effects on increasing water use efficiency in corn plants via drought experiments. SSB activity was measured using the modified standard method of 4500-SiO2 D Heteropoly blue. Drought control in the greenhouse follows the Snow and Tingey system. The experimental design used a completely randomized design factorial with irrigation conditions and SSB species as variables. Water use efficiency is measured in real-time with a sap flow meter. The results showed that SSB Pseudomonas fluorescens-B41 had the highest silica dissolving activity 81.93 ppm on Mg-trisilicate. The application of SSB can reduce maize transpiration rate and increase water use efficiency up to 84% under moderate drought stress and 46% under normal irrigation, but in severe drought stress, where the nutrient solution was maintained at 25 cm from plant root, water use efficiency was not significant. This is suspected due to the extreme drought conditions in the potting soil so that the applied SSB cannot maintain its activities.[Keywords: aquaporin, drought stress, Snow and Tingey system, SSB, quartz]AbstrakPerubahan iklim global mengakibatkan penurunan curah hujan dan peningkatan evaporasi, sehingga diperkirakan frekuensi dan tingkat keparahan cekaman kekeringan akan semakin tinggi. Silika (Si) diketahui dapat meningkatkan ketahanan tanaman terhadap kekeringan dengan cara memperbaiki efisiensi penggunaan air pada tanaman. Meskipun ketersediaanya berlimpah di tanah, sebagian besar Si dalam bentuk yang tidak tersedia bagi tanaman, karena sifat kelarutannya yang rendah. Untuk meningkatkan silika tersedia bagi tanaman, bakteri pelarut silika (BPS) memiliki peranan yang penting. Penelitian ini bertujuan menguji aktivitas pelarutan silika dari tiga koleksi isolat BPS Pusat Penelitian Bioteknologi dan Bioindustri Indonesia (PPBBI) pada sumber silika tidak larut berupa magnesium trisilikat, kuarsa, dan feldspar, serta melihat pengaruh aplikasi BPS terhadap efisiensi penggunaan air pada tanaman jagung yang diberi perlakuan cekaman kekeringan. Aktivitas pelarutan silika diukur menggunakan modifikasi metode standar 4500-SiO2 D Heteropoly blue. Pengendalian kekeringan di rumah kaca mengadaptasi sistem Snow dan Tingey. Rancangan percobaan menggunakan rancangan acak lengkap faktorial dengan kondisi kekeringan dan jenis bakteri BPS sebagai peubah bebas. Efisiensi penggunaan air diukur secara real time dengan sap flow meter. Hasil penelitian menunjukkan bahwa BPS dengan kode Pseudomonas fluorescens-B.41 memiliki aktivitas pelarutan silika tertinggi pada susbtrat Mg-trisilika yaitu 81,93 ppm. Aplikasi BPS menurunkan laju transpirasi jagung dan meningkatkan efisiensi penggunaan air hingga 84% pada cekaman kekeringan sedang dan 46% pada irigasi normal, namun pada cekaman kekeringan parah, dimana larutan hara dipertahankan pada jarak 25 cm dari sistem perakaran efisiensi penggunaan air tidak signifikan. Diduga hal ini disebabkan kondisi kekeringan pada media tanam terlalu ekstrim sehingga BPS yang diaplikasi tidak dapat mempertahankan aktivitasnya.[Kata kunci: aquaporin, cekaman kekeringan, sistem Snow dan Tingey, BPS, kuarsa]

Solubilization of silicate from quartz mineral by potential silicate solubilizing bacteria (Pelarutan silika asal mineral kuarsa oleh bakteri pelarut silika potensial ) Laksmita Prima SANTI; Didiek Hadjar GOENADI
Menara Perkebunan Vol. 85 No. 2 (2017): 85 (2), 2017
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v85i2.247

Silicon (Si) is the second most abundant materials, existing as a compound of several minerals in the soil varies from 50 to 400 g Si per kg of soil. Silicon has positive influence on the plant resistance to various abiotic and biotic stressors such as salinity, drought, heavy metal toxicities and diseases. Although Si is abundant in soil, most of its sources are not available for plant uptake due to low solubility of Si compounds in soil. To improve plant-available Si in the soil, silicate solubilizing bacteria (SSB) are potentially important in solubilizing insoluble forms of silicate. The objectives of this study were to determine: (i) biochemical characteristics of SSB, and (ii) silicate solubilizing activity of Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, and B. vietnamiensis ZEO3 in magnesium trisilicate (2MgO·3SiO2) and quartz mineral. A laboratory study was conducted at Microbiology and Environment Laboratory, the Indonesian Research Institute for Biotechnology and Bioindustry, Bogor, in 2016. All SSB were grown on Bunt and Rovira media containing 0.25% magnesium trisilicate or quartz mineral as substrate, respectively. Silica solubilizing activities by SSB were determined by using inductively coupled plasma-atomic emission spectrometry while organic acid concentration in the culture were measured by using high-performance liquid chromatography (HPLC). The results indicate that no correlation between solubilizing silicate activity and clear zone on solid Bunt and Rovira media. B.cenocepacia KTG, A.punctata RJM 3020, and B. vietnamiensis ZEO3 isolates were capable of producing citric, acetic, and oxalic acid in various optimum incubation time and accelerating the solubilization of SiO2 originated from quartz with Si solubility at 96-hour incubation time are 0.76; 0.86; and 0.70 ppm respectively. [Key words: Silicate solubilizing bacteria (SSB); Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, and silisic acid]. Abstrak Silika (Si) merupakan unsur kedua paling banyak dijumpai di dalam tanah dengan konsentrasi yang sangat beragam antara 50-400 g Si per kg tanah. Silika memberikan pengaruh positif pada ketahanan tanaman terhadap berbagai cekaman abiotik dan biotik seperti salinitas, kekeringan, toksisitas logam berat, dan penyakit. Meskipun berlimpah, sebagian besar sumber Si tidak tersedia bagi tanaman, karena kelarutan senyawa Si di dalam tanah cukup rendah. Untuk meningkatkan kelarutan Si di dalam tanah, bakteri pelarut silika berperan penting melarutkan silika dalam bentuk tidak larut. Penelitian ini bertujuan untuk menetapkan: (i)karakterisasi secara biokimia bakteri pelarut silika, dan (ii) kemampuan melarutkan silika dari sumber magnesium trisilika dan mineral kuarsa oleh Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, dan B. vietnamiensis ZEO3. Kegiatan penelitian dilakukan di Laboratorium Mikrobiologi dan Lingkungan, Pusat Penelitian Bioteknologi dan Bioindustri Indonesia, Bogor, tahun 2016. Bakteri pelarut silika potensial ditumbuhkan di dalam medium Bunt dan Rovira yang mengandung masing-masing 0, 25% magnesium trisilikat atau kuarsa sebagai substrat. Aktivitas pelarutan silika oleh bakteri pelarut silika ditetapkan dengan spektrofotometer emisi atom dan produksi asam organik diukur dengan kromatografi cair kinerja tinggi (HPLC). Hasil penelitian ini menunjukkan bahwa tidak ada korelasi antara aktivitas pelarutan silika dengan zona jernih yang terbentuk dalam medium padat Bunt dan Rovira. Isolat B. cenocepacia KTG, A. punctata RJM3020, dan B. vietnamiensis ZEO3 dapat menghasilkan asam sitrat, oksalat, dan asetat dengan waktu inkubasi optimum yang bervariasi. Ketiga isolat tersebut juga dapat melarutkan SiO2 yang berasal dari mineral kuarsa dengan nilai kelarutan Si pada inkubasi 96 jam masing-masing sebesar 0,76;0,86; dan 0,70 ppm. [Kata kunci: bakteri pelarut silika, Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, asam silikat.]

Enhanced solubilization of insoluble silicate from quartz and zeolite minerals by selected Aspergillus and Trichoderma species Laksmita Prima SANTI
Menara Perkebunan Vol. 88 No. 2 (2020): 88 (2), 2020
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v88i2.381

Silicon (Si) is a major component of sand, silt and clay particles of soils. Available silica as silicic acid (H4SiO4) present in soil solution is considerably low, only in the range of 3.5–40.0 mg Si L-1. To improve plant-available Si in the soil, silicate-solubilizing fungi (SSF) are potentially important in solubilizing insoluble forms of silicate (SiO2). The objectives of this study were to determine silicate solubilizing capacity and organic acid produced by seven SSF isolates on Bunt and Rovira media by using 0.25% (w/v) magnesium trisilicate (Mg2O8Si3), quartz, and zeolite as a silica source. Determination of SSF isolates potential in Si solubilization was carried out in a completely randomized design with three silica sources and three replicates. The results indicated that all SSF were capable of producing acetic, citrate, and oxalic acids and enhancing the solubilization of insoluble silicates. Trichoderma polysporum and Aspergillus niger BCCF194 were the best isolates of SSF. Furthermore, there was significantly (p<0.05) positive correlation between solubilizing silicate capacity by using quartz or zeolite as a silica source on Bunt and Rovira media with incubation time (R2 = 0.79-0.99) and citric acid production (R2= 0.97-0.99) from T. polysporum and A. niger BCCF194

Application of silica solubilizing bacteria increases water efficiency in maize Indah Puspita SARI; Yulin LESTARI; HAMIM HAMIM; Laksmita Prima SANTI
Menara Perkebunan Vol. 90 No. 1 (2022): 90 (1), 2022
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v90i1.493

Abstract Global climate change will result in decreased rainfall and increased evaporation. Thus, it is estimated that the frequency and severity of drought stress will get worse. Silica increases plant drought resistance by improving water use efficiency in plants. Despite its abundant availability in soil, most silica sources are not available to plants due to their low solubility. Silica solubilizing bacteria (SSB) have an important role in increasing the available silica. This study aims to observe the silica solubilizing activity of three SSB isolates collections of PPBBI on insoluble silica sources, including magnesium trisilicate, quartz, and feldspar, and see their effects on increasing water use efficiency in corn plants via drought experiments. SSB activity was measured using the modified standard method of 4500-SiO2 D Heteropoly blue. Drought control in the greenhouse follows the Snow and Tingey system. The experimental design used a completely randomized design factorial with irrigation conditions and SSB species as variables. Water use efficiency is measured in real-time with a sap flow meter. The results showed that SSB Pseudomonas fluorescens-B41 had the highest silica dissolving activity 81.93 ppm on Mg-trisilicate. The application of SSB can reduce maize transpiration rate and increase water use efficiency up to 84% under moderate drought stress and 46% under normal irrigation, but in severe drought stress, where the nutrient solution was maintained at 25 cm from plant root, water use efficiency was not significant. This is suspected due to the extreme drought conditions in the potting soil so that the applied SSB cannot maintain its activities.[Keywords: aquaporin, drought stress, Snow and Tingey system, SSB, quartz]AbstrakPerubahan iklim global mengakibatkan penurunan curah hujan dan peningkatan evaporasi, sehingga diperkirakan frekuensi dan tingkat keparahan cekaman kekeringan akan semakin tinggi. Silika (Si) diketahui dapat meningkatkan ketahanan tanaman terhadap kekeringan dengan cara memperbaiki efisiensi penggunaan air pada tanaman. Meskipun ketersediaanya berlimpah di tanah, sebagian besar Si dalam bentuk yang tidak tersedia bagi tanaman, karena sifat kelarutannya yang rendah. Untuk meningkatkan silika tersedia bagi tanaman, bakteri pelarut silika (BPS) memiliki peranan yang penting. Penelitian ini bertujuan menguji aktivitas pelarutan silika dari tiga koleksi isolat BPS Pusat Penelitian Bioteknologi dan Bioindustri Indonesia (PPBBI) pada sumber silika tidak larut berupa magnesium trisilikat, kuarsa, dan feldspar, serta melihat pengaruh aplikasi BPS terhadap efisiensi penggunaan air pada tanaman jagung yang diberi perlakuan cekaman kekeringan. Aktivitas pelarutan silika diukur menggunakan modifikasi metode standar 4500-SiO2 D Heteropoly blue. Pengendalian kekeringan di rumah kaca mengadaptasi sistem Snow dan Tingey. Rancangan percobaan menggunakan rancangan acak lengkap faktorial dengan kondisi kekeringan dan jenis bakteri BPS sebagai peubah bebas. Efisiensi penggunaan air diukur secara real time dengan sap flow meter. Hasil penelitian menunjukkan bahwa BPS dengan kode Pseudomonas fluorescens-B.41 memiliki aktivitas pelarutan silika tertinggi pada susbtrat Mg-trisilika yaitu 81,93 ppm. Aplikasi BPS menurunkan laju transpirasi jagung dan meningkatkan efisiensi penggunaan air hingga 84% pada cekaman kekeringan sedang dan 46% pada irigasi normal, namun pada cekaman kekeringan parah, dimana larutan hara dipertahankan pada jarak 25 cm dari sistem perakaran efisiensi penggunaan air tidak signifikan. Diduga hal ini disebabkan kondisi kekeringan pada media tanam terlalu ekstrim sehingga BPS yang diaplikasi tidak dapat mempertahankan aktivitasnya.[Kata kunci: aquaporin, cekaman kekeringan, sistem Snow dan Tingey, BPS, kuarsa]

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