Directory UMM :Data Elmu:jurnal:A:Agricultural Water Management:Vol43.Issue3.Apr2000:
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However, this result facilitated mea- surement of the effects of the compaction treatment on crop growth and yield without the complicating effect of different amounts of stored
There was a signi®cant difference in aeration por- osity due to cover crops in three of the ®ve summer samplings in the ®rst and third years with spring barley resulting in 25%
European sea bass display predominantly nocturnal self-feeding patterns in winter and early spring, and this has been further examined by comparing the effect of night and day
First, the increase in PRL plasma level found 1 h after the onset of darkness in the autumn and spring equinoxes in the Mouflon, and in the winter solstice and spring equinox
ESI values for four crop management systems on four soils and four computational time frames (CORN: continuous corn; WFD: wheat-fallow, dryland; C2W2: 2-year corn, 2-year
The erosion productivity impact calculator (EPIC) crop growth model simulated production of corn (Zea mays L.), sorghum (Sorghum bicolor (L.) Moench), soybean (Glycine max L.),
Four treatments were compared: idle fields with no vegetation improvement but exclusion of cattle, improved pastures with seeding of forage plants for cattle, DNC fields with
The treatments were plow tillage (PT) and no-tillage (NT), with summer fodder maize (Zea mays L.) double-cropped in rotation with winter oat (Avena sativa L.); permanent pasture
