APLIKASI LUBANG RESAPAN BIOPORI BERKOMPOS DI KEBUN KOPI MENINGKATKAN JUMLAH SPORA MIKORIZA ARBUSKULA DAN KOLONI AKAR

Authors

  • Dyah Ayu Prosanti Departemen Tanah, Fakultas Pertanian, Universitas Brawijaya
  • Budi Prasetya Departemen Tanah, Fakultas Pertanian, Universitas Brawijaya
  • Soemarno Soemarno Departemen Tanah, Fakultas Pertanian, Universitas Brawijaya

DOI:

https://doi.org/10.21776/ub.jtsl.2023.010.2.18

Keywords:

biopore infiltration holes, genus arbuscular mycorrhizae, mycorrhizae, root colonization, soil properties

Abstract

Mycorrhizae is a mutualistic symbiotic relationship between fungi and plant roots, and soil characteristics influence the performance of this symbiosis. Biopore Infiltration Hole is a vertical hole into the soil with a diameter of about 10cm and at a depth of ±100 cm in the soil for air infiltration, which is helpful in reducing the occurrence of excessive air puddles. This research was conducted to determine the effect of soil properties such as pH, total N, available P, CEC and texture on the number of spores and root colonies by arbuscular mycorrhizae on the effect of biopore infiltration holes with the addition of organic matter. The results showed that the highest number of arbuscular mycorrhizae spores and root colonies was in the biopore infiltration holes with goat manure, namely 16.3 spores 100 g-1 soil and 66.22% root colonization. The arbuscular mycorrhizal genera found included Glomus, Acaulospora, Scutellospora, and Gigaspora. The number of spores and soil properties that were positively correlated were pH (r=0.45), organic C (r=0.945**), total N (r=0.716**), available P (r=0.922**), dan CEC (r=0.894**).

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References

Afandi, F.N., Siswanto, B. dan Nuraini, Y. 2015. Pengaruh pemberian berbagai jenis bahan organik terhadap sifat kimia tanah pada pertumbuhan dan produksi tanaman ubi jalar di Entisol Ngrangkah Pawon, Kediri. Jurnal Tanah dan Sumberdaya Lahan 2(2):237-244.

Al-Areqi, A.H., Chliyeh, M., Sghir, F., Touhami, A.Q., Benkirane, R. and Douira, A. 2013. Diversity of arbuscular mycorrhizal fungi in the rhizosphere of coffea arabica in the Republic of Yemen. Applied Bioscience 1(64):4888-4901.

Amir, N., Hawalid, H. dan Nurhuda, I.A. 2017. Pengaruh pupuk kandang terhadap pertumbuhan beberapa varietas tanaman tebu (Saccharum officinarum L.) di polybag. Jurnal Klorofil 12(2):68-72.

Badan Pusat Statistik. 2021. Kecamatan Kromengan dalam Angka. Malang: Badan Pusat Statistik.

Balai Penelitian Tanah. 2009. Petunjuk Teknis : Analisis Kimia Tanah, Tanaman, Air Dan Pupuk. Bogor: Balai Penelitian Tanah.

Barrett, G., Campbell, C.D. dan Hodge, A. 2014. The direct response of the external mycelium of arbuscular mycorrhizal fungi to temperature and the implications for nutrient transfer. Soil Biology and Biochemistry 78:109-117.

Casetou-Gustafson, S., Akselsson, C., Hillier, S. and Olsson, B.A. 2019. The importance of mineral determinations to profile base cation weathering release rates: a case study. Biogeosciences 16(9):1903-1920.

Douds, D. and Nahashi, G. 2000. Signalling and Recognition Events prior to Colonization of Roots by Arbuscular Mycorhhizal Fungi. In Current Anvandces In Mycorrhizae Research. Minnesota: Aps Press.

Duan, H.X., Luo, C.L., Li, J.Y., Wang, B.Z., Naseer, M. and Xiong, Y.C. 2021. Improvement of wheat productivity and soil quality by arbuscular mycorrhizal fungi is density-and moisture-dependent. Agronomy for Sustainable Development 41(1):1-12.

Effendy, M. and Wijayani, B.W. 2008. Studi hifa eksternal CMA dalam memahami fungsinya mengkontribusi serapan P tanaman menggunakan Metode Thin Section. Journal of Tropical Soils 13(3):241-252.

Fasusi, O.A., Amoo, A.E. and Babalola, O.O. 2021. Propagation and characterization of viable arbuscular mycorrhizal fungal spores within maize plant (Zea mays L.). Journal of the Science of Food and Agriculture 101(14):5834-5841.

Fitria, L. and Soemarno, S. 2022. Effects of lime and compost on chemical characteristics and soil hydraulic conductivity of Alfisols at ATP Jatikerto coffee plantation. Caraka Tani: Journal of Sustainable Agriculture 37(1):48-61.

Gross, A. and Glaser, B. 2021. Meta-analysis on how manure application changes soil organic carbon storage. Scientific Reports 11(1):1-13.

Guo, X.X., Liu, H.T. and Wu, S.B. 2019. Humic substances developed during organic waste composting: Formation mechanisms, structural properties, and agronomic functions. Science of the total Environment 662:501-510.

Hanuf, A.A., Prijono, S. and Soemarno. 2021. Improvement of soil available water capacity using biopore infiltration hole. Journal of Degraded and Mining Lands Management 8(3):2791-2799.

Hermawan, H., Muin, A. dan Wulandari, R.S. 2015. Kelimpahan Fungi Mikoriza Arbuskula (FMA) pada tegakan ekaliptus (Eucalyptus pellita) berdasarkan tingkat kedalaman di lahan gambut. Hutan Lestari 3(1):124-132.

Hidayat, N., Wigyanto, Sumarsih, S. dan Putri, A.I. 2016. Mikologi Industri. Malang: UB Press.

Huang, G.M., Srivastava, A.K., Zou, Y.N., Wu, Q.S. and Kuča, K. 2021. Exploring arbuscular mycorrhizal symbiosis in wetland plants with a focus on human impacts. Symbiosis, 1-10.

Hugoni, M., Luis, P., Guyonnet, J. and El Zahar Haichar, F. 2018) Plant host habitat and root exudates shape fungal diversity. Mycorrhiza 28(5):451-463.

Indriani, N.P., Mansyur, Susilawati, I. dan Islami, R.Z. 2011. Peningkatan produktivitas tanaman pakan melalui pemberian Fungi Mikoriza Arbuskular (FMA). Pastura 1(1):27-30.

INVAM. (2013). International Culture Collection Of (Vesicular) Arbuscular Mycorrhizal Fungi. Retrieved 09 15, 2021, From Http://Fungi.Invam.Wvu.Edu/The-Fungi/Classification/Gigasporaceae/Scutellospora/Calospora.Html.

Kang, H., Yu, W., Dutta, S. and Gao, H. 2021. Soil microbial community composition and function are closely associated with soil organic matter chemistry along a latitudinal gradient. Geoderma 383:114744.

Kumar, S., Chaudhuri, S. and Maiti, S. 2011. Assessment of VAM spore density and root infection from Alluvial soil of eastern part of Raniganj coalfield areas. The Bioscan 6(3):375-381.

Lara-Capistran, L., Zulueta-Rodriguez, R., Murillo-Amador, B., Preciado-Rangel, P., Verdecia-Acosta, D. M. and Hernandez-Montiel, L.G. 2021. Biodiversity of AM fungi in coffee cultivated on eroded soil. Agronomy 11(3):567.

Li,Y., Laterrière, M., Lay, C.Y., Klabi, R., Masse, J., St-Arnaud, M., Yergeau, E., Lupwayi, Z., Gan, Y. and Hamel, C. 2021. Effects of arbuscular mycorrhizal fungi inoculation and crop sequence on root-associated microbiome, crop productivity and nutrient uptake in wheat-based and flax-based cropping systems. Applied Soil Ecology 168:104136.

Liu, H., Wu, Y., Xu, H., Ai, Z., Zhang, J., Liu, G. and Xue, S. 2021. N enrichment affects the arbuscular mycorrhizal fungi-mediated relationship between a C4 grass and a legume. Plant Physiology 187(3):1519-1533.

Loso, S., Sudradjat, Hariyadi, Yahya, S. and Sutandi, A. 2020. The role of different types of biopory technology in repair of land properties and root growth in the palm oil plants area. Asian Journal of Microbiology,. Biotechnology, and Environmental Science 22(1):158-167.

Manurung, R.K. 2018. Keanekaragaman Fungi Mikoriza Arbuskula (FMA) di bawah tegakan cemara laut (Casuarina equisetifollia) Berdasarkan Perbedaan Kedalaman Tanah. Medan: Universitas Sumatera Utara.

Mpanga, I.K., Adjei, E., Dapaah, H.K. and Santo, K G. 2021. Poultry manure induced garden eggs yield and soil fertility in tropical and semi-arid sandy-loam soils. Nitrogen 2(3):321-331.

Nurhalimah, S., Nurhatika, S. and Muhibuddin, A. 2014. Eksplorasi Mikoriza Vesikular Arbuskular (MVA) indigenous pada tanah Regosol di Pamekasan, Madura. Sains dan Seni Pomits 3(1):2337-3520.

Pangaribuan, N. 2014. Penjaringan cendawan mikoriza arbuskula indigenous dari lahan penanaman jagung dan kacang kedelai pada gambut Kalimantan Barat. Agro 1(1):50-60.

Prada, C.M., Turner, B.L. and Dalling, J.W. 2022. Growth responses of ectomycorrhizal and arbuscular mycorrhizal seedlings to low soil nitrogen availability in a tropical montane forest. Functional Ecology 36(1):107-119.

Rahman, R., Mahreda, E.S., Basir, dan Badaruddin. 2020. Peran limbah bahan organik pada lubang resapan biopori terhadap sifat kimia tanah di lahan pasca tambang. Enviroscinteae 16(3):439-445.

Ramza, I.H., Koulagna, H.I., Said, A.A., Kosma, P. and Megueni, C. 2020. Diversity of Arbuscular Mycorrhizal Fungi (AMF) associated with cotton (Gossypium hirsutum L.) growing in the far-north region of Cameroon. Journal of Microbiology Research14(6):211-224.

Shao, Y.D., Hu, X.C., Wu, Q.S., Yang, T.Y., Srivastava, A.K., Zhang, D.J., Gao, X.B. and Kuča, K. 2021. Mycorrhizas promote P acquisition of tea plants through changes in root morphology and P transporter gene expression. South African Journal of Botany 137:455-462.

Silveira, A.P.D.D. and Cardoso, E.J.B.N. 2004. Arbuscular mycorrhiza and kinetic parameters of phosphorus absorption by bean plants. Scientia Agricola 61(2):203-209.

Surya, J.A., Nuraini, Y. dan Widianto. 2017. Kajian porositas tanah pada pemberian beberapa jenis bahan organik di perkebunan kopi Robusta. Jurnal Tanah dan Sumberdaya Lahan 4(1):463-471.

Wolka, K., Biazin, B., Martinsen, V. and Mulder, J. 2021. Soil and water conservation management on hill slopes in southwest Ethiopia. I. Effects of soil bunds on surface runoff, erosion and loss of nutrients. Science of The Total Environment 757:142877.

Xu, Z., Wu, C., Lv, Y., Meng, F. and Ban, Y. 2021. Effects of aeration on the formation of arbuscular mycorrhiza under a flooded state and copper oxide nanoparticle removal in vertical flow constructed wetlands. Microbial Ecology 81(4):922-931.

Yao, Z., Xu, Q., Chen, Y., Liu, N., Li, Y., Zhang, S., Chao, W., Zhai, B., Wang, Z., Zhang, D., Adl, S. and Gao, Y. 2021. Leguminous green manure enhances the soil organic nitrogen pool of cropland via disproportionate increase of nitrogen in particulate organic matter fractions. Catena 207:105574.

Zai, X. M., Fan, J.J., Hao, Z.P., Liu, X.M. and Zhang, W.X. 2021. Effect of co-inoculation with arbuscular mycorrhizal fungi and phosphate solubilizing fungi on nutrient uptake and photosynthesis of beach palm under salt stress environment. Scientific Reports 11(1):1-11.

Zhang, H.S., Zhou, M.X., Zai, X M., Zhao, F.G. and Qin, P. 2020. Spatio-temporal dynamics of arbuscular mycorrhizal fungi and soil organic carbon in coastal saline soil of China. Scientific Reports 10(1):1-13.

Zhao, S., Liu, Z., Zhang, R., Liu, J., Liu, J., Dai, Y., Zhang, C. and Jia, H. 2021. Interfacial reaction between organic acids and iron-containing clay minerals: Hydroxyl radical generation and phenolic compounds degradation. Science of The Total Environment 783:147025.

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Published

01-07-2023

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Vol. 10 No. 2 (2023)

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How to Cite

Prosanti, D. A., Prasetya, B., & Soemarno, S. (2023). APLIKASI LUBANG RESAPAN BIOPORI BERKOMPOS DI KEBUN KOPI MENINGKATKAN JUMLAH SPORA MIKORIZA ARBUSKULA DAN KOLONI AKAR. Jurnal Tanah Dan Sumberdaya Lahan, 10(2), 341-351. https://doi.org/10.21776/ub.jtsl.2023.010.2.18
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