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Plot Scale Phosphorous and Potassium Balances of Newly Opened Wetland Rice Farming Originated from Wetland

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Author(s): Sukristiyonubowo | Kusumo Nugroho | Sofyan Ritung

Journal: Jurnal Tanah Tropika
ISSN 0852-257X

Volume: 17;
Issue: 3;
Start page: 227;
Date: 2012;
Original page

Keywords: Newly opened wetland rice | nutrient balance | nutrient input | nutrient losses | plot scale wetland

ABSTRACT
Development of newly opened wetland rice fields both from dry land and wetland in Indonesia are important to meet rice growing demand, increase soil productivity, keep rural food security and provide jobs as well as generate income. Most soils of newly opened rice fields are low in P and K contents, but the farmers do not apply P and Krecommended fertilisers. The study was conducted on newly opened wetland rice farming in Panca Agung village,Bulungan District, East Kalimantan Province, Indonesia in 2009. The aims were to evaluate phosphorous and potassium input – out of newly opened wetland rice and to validate the P and K recommendation. Six treatments were tested including farmers practices (as control), farmer practices + straw compost + dolomite, NPK with recommendation rate in which N and K was split in two applications, NPK with recommendation rate in which N and K was split three applications, NPK with recommendation rate + straw compost + Dolomite , in which N and K was split three applications, and NPK with recommendation rate + straw compost + dolomite, in which N and K were split two applications. The N, P and K rates were 250 kg urea, 100 kg SP-36 and 100 kg KCl ha-1 season-1, while the farmer practices 100 kg urea and 100 kg SP-36 ha-1 season-1. Parameters to be measured were concentration P and K in mineral fertilizer, compost, irrigation water and grains as well as straw. The results showed that surplus P ranged from 5.75 to 12.85 kg P ha-1 season-1, meaning that SP-36 application rate was more than enough to replace P removed by harvest product. In contrast,potassium application rate should be increased from 100 to 200 kg KCl ha-1 season-1 to fix K removed by harvest product. However, when the compost will also be increased to 3 Mg ha-1 season-1 K fertilizer can be increased to 150 kg KCl ha-1 season-1 to substitute K taken away by rice harvest product and to keep higher rice grain yield. These P and K recommendation rate imply that total SP-36 and KCl should beavailable at district level will be about 984.9 Mg SP-36 and 1.477 Mg KCl district -1 season -1, respectively.
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