PENINGKATAN PERTUMBUHAN TANAMAN PADI PADA TANAH SALIN-SODIK MELALUI APLIKASI AMANDEMEN GIPSUM DAN AMANDEMEN BIOCHAR SEKAM PADI-KOTORAN SAPI SERTA MELALUI BIOPRIMING BENIH DENGAN PSEUDOMONAS AERUGINOSA DAN AZOTOBACTER CHROOCOCCUM
Due to crop depletion and increase in population, the world is reported to be facing a food crisis today. The most significant factor influencing this trend is the deterioration of soil quality as a result of soil salinity and sodicity. This situation will cause the soil's physicochemical qu...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/68092 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Due to crop depletion and increase in population, the world is reported to
be facing a food crisis today. The most significant factor influencing this trend is
the deterioration of soil quality as a result of soil salinity and sodicity. This situation
will cause the soil's physicochemical qualities to deteriorate, restricting water and
nutrient absorption and impeding plant growth. Although leaching can help reduce
salt concentration, this method consumes a lot of water and can leached off
important soil material. Soil amendments are reported to aid in the efficient
leaching process and provide nutrients that can regulate plant growth. Another
approach is to increase salt tolerance in plant by injecting plant growth promoting
rhizobacteria (PGPR) into seedlings. The purpose of this study is to examine the
characteristics of salt-induced soil after reclamation using various amendments
such as organic amendments, inorganic amendments, and seed inoculation with the
PGPR consortium, as well as the effect on the increase in rice plant growth and
yield. The experiment began by watering the alluvial clay soil with a 3.5 % salt
solution to create saline-sodic soil. The salt-induced soil is then amended with cow
dung-biochar (BK), 100% gypsum (G100), 80% gypsum (G80), 40% gypsum
(G40), 20% gypsum (G20), 10% gypsum (G10) of the stoichiometry gypsum
required, and without such additions as control (K). The addition of these
amendments is followed by a 40-day leaching period, after which the
physicochemical properties of soil are examined before these soils were used as
growing medium for the rice plant. The biopriming approach was used to inoculate
rice seedlings with PGPR. The impact of biopriming on physicochemical of the soil
as well as on rice plant growth is investigated using the soil with no addition of the
amendments (P). A combination of Pseudomonas aeruginosa and Azotobacter
chroococcum was employed in this investigation as PGPR. Rice plant growth was
monitored for 112 days till harvest. The addition of the amendments gives a
prominent influence on the decrease of salinity, according to this study. The G100
variant shows a significant impact on the soil's chemical features, including a 75%
reduction in EC, a 77% decrease in Na+, a 55% increase in Ca2+, reduction of pH
value to 5.6, a 93% decrease in ESP, and a 94% decrease in ESP. Variant BK shows
greatest physical properties of soil, with a lower density (0.865 g/cm3) and a higher
water retention capacity (85%) than the optimal value. The variant P produced the
greatest outcomes in terms of rice plant growth and yield. In comparison to other
variants, this variation produced the highest output of height (74,5 ± 6,9 cm), tiller
number (30 ± 4/plant), root length (17,4 ± 3,6), number of leaves (70 ± 11/plant),
chlorophyll value (2,49 ± 0,18 mg/g), biomass weight (61,77 ± 0,19 g), and yield
(4,0 1± 0,2 g). |
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