Sixteen field experiments were conducted at 9 sites in the South Burnett region of subtropical Queensland, to determine grain yield response of maize to fertiliser nitrogen (N) and to assess soil mineral N levels at sowing for predicting N requirement. At 6 sites, areas were either winter-cropped or bare-allowed, resulting in different cropping histories immediately prior to summer maize. In each experiment, 4 rates of N (0, 38, 76, and 152 kg/ha) were applied, with an additional rate (304 kg/ha) at 3 sites that received supplementary irrigation. Immediately prior to sowing, soil samples for mineral N and moisture were taken from each 10-cm increment to a depth of 120 cm. Soil nitrate-N levels (0-120 cm) before sowing were 16-100 kg N/ha (winter-cropped) and 65-167 kg N/ha (bare-fallowed). Application of N significantly (P<.05) increased grain yield in 14 of the 16 experiments. Maximum grain yields in non-irrigated experiments ranged from 2.08 to 5.61 t/ha and reflected profile available water at sowing and rainfall during the growing season. Maximum yields in irrigated experiments ranged from 4.44 to 6.95 t/ha. The magnitude of the response was greater at winter-cropped sites (relative yields 33-89%) than at fallow sites (82-100%). Relative grain yield was well correlated with nitrate-N in the 0-60 cm profile ( R2 = 0.74). There was also a good relationship between relative grain yield and nitrate-N at 0-10 cm depth ( R2= 0.64).
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机译:在亚热带昆士兰州南伯内特地区的9个地点进行了16个田间试验,以确定玉米对肥料氮(N)的籽粒产量响应,并评估播种时土壤矿质氮的含量,以预测氮的需求。在6个地点,冬玉米播种或裸麦播种,导致夏玉米播种前的种植历史不同。在每个实验中,分别施用4种氮肥(0、38、76和152 kg / ha),并在3个接受补充灌溉的地方施用另外的氮肥(304 kg / ha)。播种前不久,从每10厘米的增量到120厘米的深度采集土壤中的氮和水分样品。播种前的土壤硝态氮水平(0-120厘米)为16-100千克氮/公顷(冬作)和65-167千克氮/公顷(裸食)。在16个实验中的14个实验中,施用N显着(P <.05)提高了谷物产量。在非灌溉实验中,最大谷物产量为2.08至5.61吨/公顷,反映了生长季节播种和降雨时可用水分的分布。灌溉实验的最大产量为4.44至6.95吨/公顷。在冬季播种的地区(相对产量为33-89%),其响应程度要大于在休闲场所(82-100%)。在0-60 cm的剖面中,相对谷物产量与硝酸盐氮有很好的相关性(R2 = 0.74)。在0-10 cm深度(R2 = 0.64)下,相对谷物产量与硝酸盐-氮之间也存在良好的关系。
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