Artikel Ilmiah : B1K014036 a.n. DEMA RICH LUCKYANA

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NIMB1K014036
NamamhsDEMA RICH LUCKYANA
Judul ArtikelBacterial (9A2H) enhancement alters the nematode community
structure and decomposition pathway of amended nutrient-limited soil
Abstrak (Bhs. Indonesia)Luckyana DR, Puspitasari IGAAR, Maharning AR. 2020. Bacterial (9A2H) enhancement alters the nematode community
structure and decomposition pathway of amended nutrient-limited soil. Biodiversitas 21: 4813-4820. This study examined the influence
of paddy litter amendment and bacterial enhancement of nutrient-limited soil on the nematode community structure and investigated the
decomposition rate of the litter due to the treatment. We applied a microcosm-based approach using sand as the medium, including the
following treatments: no-bacteria, 9A-autotrophic-bacteria, 2H-heterotrophic-bacteria, and 9A-2H-mix-bacteria, with five replicates.
The litter bag experiment and exponential decay model estimated the litter decomposition rate in the microcosm. The soil samples and
litter bags were retrieved after days 21, 42, and 63. The structure, enrichment, channel index (CI), and canonical correspondence
analysis were employed to investigate the nematode community response. Bacterial enhancement shifted the nematode community and
the soil food web toward the dominant bacterial pathway by day 63 (CI: 0), with a slightly less structured food web that was supported
by bacterivorous nematodes mostly related to available nutrients. These changes coincided with soil organic carbon and nitrogen
increases over time. Our experiments showed that paddy litter amendment and the 9A, 2H, and 9A-2H-mix bacterial enhancements
improved nutrient-limited soil, according to the analysis of the nematode community, its composition, and the food web conditions
determining nutrient mobility and availability. However, these factors have no impact on the litter decay rate.
Abtrak (Bhs. Inggris)Luckyana DR, Puspitasari IGAAR, Maharning AR. 2020. Bacterial (9A2H) enhancement alters the nematode community
structure and decomposition pathway of amended nutrient-limited soil. Biodiversitas 21: 4813-4820. This study examined the influence
of paddy litter amendment and bacterial enhancement of nutrient-limited soil on the nematode community structure and investigated the
decomposition rate of the litter due to the treatment. We applied a microcosm-based approach using sand as the medium, including the
following treatments: no-bacteria, 9A-autotrophic-bacteria, 2H-heterotrophic-bacteria, and 9A-2H-mix-bacteria, with five replicates.
The litter bag experiment and exponential decay model estimated the litter decomposition rate in the microcosm. The soil samples and
litter bags were retrieved after days 21, 42, and 63. The structure, enrichment, channel index (CI), and canonical correspondence
analysis were employed to investigate the nematode community response. Bacterial enhancement shifted the nematode community and
the soil food web toward the dominant bacterial pathway by day 63 (CI: 0), with a slightly less structured food web that was supported
by bacterivorous nematodes mostly related to available nutrients. These changes coincided with soil organic carbon and nitrogen
increases over time. Our experiments showed that paddy litter amendment and the 9A, 2H, and 9A-2H-mix bacterial enhancements
improved nutrient-limited soil, according to the analysis of the nematode community, its composition, and the food web conditions
determining nutrient mobility and availability. However, these factors have no impact on the litter decay rate.
Kata kunciBaerman funnel method, forest soil resource, nematode feeding group, paddy litter decomposition, soil food web index
Pembimbing 1Dra. Ardhini Rin Maharning, M.Sc., Ph.D.
Pembimbing 2IGA Ayu Ratna Puspitasari, S.Si., M.Sc.
Pembimbing 3
Tahun2020
Jumlah Halaman8
Tgl. Entri2021-07-31 08:44:56.758008
Cetak Bukti Unggah
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