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Establishment practices for prerice green manures

By: Contributor(s): Material type: TextTextPublication details: 1994ISBN:
  • 971-22-0060-4
Subject(s): DDC classification:
  • 95-130204
 In: Ladha, J.K.; Garrity,-D.P. (eds.). International Rice Research Inst., Los Banos, Laguna (Philippines). Green manure production systems for Asian ricelands: selected papers from the International Rice Research Conference. Los Banos, Laguna (Philippines). IRRI. 1994. p. 99-113. Received Apr 1995. (UPLB Acc. no. 119007)Summary: Wider farm-level use of green manures (GMs) depends on the AV: of effective crop establishment practices with minimum investment in seed, tillage, and labor. This chapter reviews recent research on the interactions among the techniques and levels of these production factors in determining low-risk, low-cost GM production. In the dry-to-wet transition in fallow ricefields, surface soil may either be dry or saturated, and crop establishment methods suitable for the two situations differ considerably. Although there are a number of suitable techniques for crop establishment with reduced tillage in dry soils, these techniques somewhat lower the percentage emergence, which tend to favor higher seeding rates. Weed pressures may also be severe with reduced tillage. Zero or minimum tillage practices need to take these agronomic conditions and germination risks into consideration. Alternative methods may also be used, such as animal-drawn seeders specifically adapted to these peculiar soil conditions, or simple broadcast and harrow methods, which are presumably more sensitive to soil moisture conditions after seeding, but may be quite successful. Low seeding rates are feasible when the window of time available for the GM crop in the field exceeds 50 d. This allows the lower plant density to be compensated for by higher biomass and N accumulation per plant. High plant densities are, in fact, unnecessary in such situations, as they would only lead to greater interplant competition, reduced plant vigor, and lower potential N2 fixation. In situations where the surface soils are moist or saturated at the time of planting, tillage is unnecessary and broadcasting is fully adequate to establish a suitable stand. However, the intermittent waterlogging that occurs frequently on such soils will cause low germination because even aquatically adapted species, such as Sesbania rostrata, are sensitive to waterlogging stress during germination. Therefore, GM establishment on wet soils is simple when conditions are right, but may be risky in the event of subsequent short-term flooding or drought
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6 graphs; 6 tables; 13 ref. Summary (En) AIBA-SEARCA, College, Laguna 4031 - Philippines

Wider farm-level use of green manures (GMs) depends on the AV: of effective crop establishment practices with minimum investment in seed, tillage, and labor. This chapter reviews recent research on the interactions among the techniques and levels of these production factors in determining low-risk, low-cost GM production. In the dry-to-wet transition in fallow ricefields, surface soil may either be dry or saturated, and crop establishment methods suitable for the two situations differ considerably. Although there are a number of suitable techniques for crop establishment with reduced tillage in dry soils, these techniques somewhat lower the percentage emergence, which tend to favor higher seeding rates. Weed pressures may also be severe with reduced tillage. Zero or minimum tillage practices need to take these agronomic conditions and germination risks into consideration. Alternative methods may also be used, such as animal-drawn seeders specifically adapted to these peculiar soil conditions, or simple broadcast and harrow methods, which are presumably more sensitive to soil moisture conditions after seeding, but may be quite successful. Low seeding rates are feasible when the window of time available for the GM crop in the field exceeds 50 d. This allows the lower plant density to be compensated for by higher biomass and N accumulation per plant. High plant densities are, in fact, unnecessary in such situations, as they would only lead to greater interplant competition, reduced plant vigor, and lower potential N2 fixation. In situations where the surface soils are moist or saturated at the time of planting, tillage is unnecessary and broadcasting is fully adequate to establish a suitable stand. However, the intermittent waterlogging that occurs frequently on such soils will cause low germination because even aquatically adapted species, such as Sesbania rostrata, are sensitive to waterlogging stress during germination. Therefore, GM establishment on wet soils is simple when conditions are right, but may be risky in the event of subsequent short-term flooding or drought

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