Mario R. Pareja scite author profile

Mario R. Pareja

4Publications

68Citation Statements Received

93Citation Statements Given

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118

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Affiliations

Iowa State University

Publications

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Distribution of Weed Seed Among Soil Structural Units

1985

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The depth distribution of weed seed, their location in relation to soil aggregates, and the size distribution of soil aggregates were determined in fields that had been under continual conventional or reduced tillage for more than 12 years. Soil samples were taken at three depths in the spring and fall of 1982, and soil aggregates were classified into seven size classes by dry, rotary sieving. Subsamples were deflocculated and washed through sieves to recover weed seed. In the spring, 85% of all seed in the reduced-tillage and 28% of those in the conventional-tillage soil were in the 0- to 5-cm-depth layer. Conventional tillage incorporated weed seed uniformly into various soil aggregate classes, whereas with reduced tillage more seed accumulated in the unaggregated fraction of the soil. In the fall, weed seed distribution in relation to soil depth and among soil aggregate classes was similar for both tillage regimes.

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Seed-Soil Microsite Characteristics in Relation to Weed Seed Germination

Pareja

Staniforth

1985

Weed sci.

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Growth chamber and laboratory experiments evaluated the effects of seed-soil microsite characteristics on seed germination. When corn (Zea maysL. ‘Pioneer 3541’), soybean [Glycine max(L.) Merr. ‘Corsoy 79’], velvetleaf (Abutilon theophrastiMedic. ♯ ABUTH), and giant foxtail (Setaria faberiHerrm. ♯ SETFA) were seeded among soil aggregates 2.50 to 1.25 cm in diameter in the growth chamber, there was decreased seedling emergence with decreasing frequency of irrigation. These same species seeded inside artificial soil aggregates showed increased seedling emergence with decreasing frequency of irrigation. The germination of corn and soybean seed inside 0.4-g, fully moist soil aggregates incubated in the laboratory under high relative humidity conditions was significantly decreased relative to seed incubated in the absence of soil. Velvetleaf and giant foxtail germination was significantly reduced by 0.1-g soil aggregates. Rice (Oryza sativaL.) had 68% emergence from 1.0-g, fully moist soil aggregates, whereas larger seeded corn and soybean had only 20 and 10% emergence, respectively. Germination inhibition of giant foxtail seed by fully moist soil was partially reversed by incubating seed-containing aggregates in an atmosphere of 75% oxygen.

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Seed-soil microsite characteristics in relation to weed seed germination

Pareja

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A Combined Analysis of Experiments When Treatments Differ Among Experiments

Hinz¹,

Pareja²

1989

Conference on Applied Statistics in Agriculture

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Mario R. Pareja

Distribution of Weed Seed Among Soil Structural Units

Seed-Soil Microsite Characteristics in Relation to Weed Seed Germination

Seed-soil microsite characteristics in relation to weed seed germination

A Combined Analysis of Experiments When Treatments Differ Among Experiments

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