施用控释尿素对大豆吸氮量及产量的影响研究

试验研究施用控释尿素对大豆吸N量及其产量与品质的影响结果表明 ,控释尿素比普通尿素N肥利用效率提高 3 0 6 %～ 1 1 93% ,沙土中尿素N残留量增加 1 2 5 %～ 1 5 89% ,大豆产量提高 2 1 6 9%～ 4 9 2 2 % ,且改善大豆品质。     

水稻对氮素的吸收、分配及其在组织中的挥发损失

应用¹⁵N示踪技术研究了水稻不同生育期吸收的¹⁵N在各器官中的分配,以及后期植物组织中的挥发损失。结果发现,水稻在分蘖期吸收的氮量少于在幼穗分化期吸收的氮量;在分蘖期吸收的¹⁵N,标记结束时氮素主要分配于水稻的叶片中,至成熟期¹⁵N有39%转运至水稻子粒中;水稻在幼穗分化期吸收的¹⁵N,标记结束时氮素主要分配在水稻茎和叶鞘中,至成熟期¹⁵N有46%转运至水稻的子粒中;水稻在分蘖期和幼穗分化期吸收的氮素在后期可以通过植株组织挥发损失,至成熟期损失的比例分别达16.7%和13.4%。     

Comparative effects of applying leguminous and non-leguminous green manures and inorganic N on biomass yield and nitrogen uptake in flooded rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

The beneficial role of green manures in rice production is generally ascribed to their potential of supplying plant nutrients, particularly nitrogen (N). However, the mechanisms through which green manures enhance the crop productivity are poorly understood. Pot experiments were conducted using a ¹⁵N-tracer technique: (1) to compare the biomass production potential of sesbania (Sesbania aculeata Pers.) and maize (Zea mays L.) as green manuring crops for lowland rice and (2) to compare the effect of the two types of green manure and inorganic N on the dry matter accumulation and N uptake by two rice (Oryza sativa L.) cultivars, viz. IR-6 and Bas-370. Although maize produced three times higher shoot biomass compared with sesbania, the latter showed higher N concentration; and thus the total N yield was similar in the two types of plants. Applying the shoot material of the two plants to flooded rice significantly enhanced the dry matter yield and N uptake by the two rice cultivars, the positive effects generally being more pronounced with sesbania than with maize amendment. The difference in the growth-promoting potential of the two plant residues was related more to an increased uptake of the native soil N rather than to their direct role as a source of plant-available N. A positive added nitrogen interaction (ANI) was observed due to both plant residues, the effect was much more pronounced with the application of sesbania than with maize residues. In both rice cultivars, inorganic N also caused a substantial ANI, particularly at higher application rate. Losses from the applied N were 2–3 times lower from sesbania, compared with maize treatment. Green manuring with sesbania also caused much lower N losses than the inorganic N applied at equivalent or higher rates. The overall benefit of green manuring to rice plants was higher than inorganic N applied at comparable rates. The two rice cultivars differed in their response to green manuring, IR-6 generally being more responsive than Bas-370.     

A survey of symbiotic nitrogen fixation by white clover grown on metal contaminated soils

There is conflicting evidence about toxic effects of heavy metals in soil on symbiotic nitrogen fixation. This study was set-up to assess the general occurrence of such effects. Soils with metal concentration gradients were sampled from six established field trials, where sewage sludge or metal salts have been applied, or from a transect in a sludge treated soil. Additional contaminated soils were sampled near metal smelters, in floodplains, in sludge amended arable land and in a metalliferous area. Symbiotic nitrogen fixation was measured with ¹⁵N isotope dilution in white clover (Trifolium repens L.) grown in potted soil that was not re-inoculated, and using ryegrass (Lolium perenne L.) as reference crop. The fraction nitrogen in clover derived from fixation (N_dff) varied from 0 to 88% depending on soil. Pronounced metal toxicity on N_dff was only confirmed in a sludge treated soil where nitrogen fixation was halved from the control value at soil total metal concentration of 737 mg Zn kg⁻¹, 428 mg Cu kg⁻¹ and 10 mg Cd kg⁻¹. The N_dff was significantly reduced by increasing metal concentration in soils from two other sites where N_dff was low throughout and where these effects might be attributed to confounding factors. No significant effects of metals on N_dff were identified in all other gradients even up to elevated total metal concentration (e.g. 55 mg Cd kg⁻¹). The variation of N_dff among all soils (n=48), is mainly explained by the number of rhizobia in the soil (log MPN, log (cells g⁻¹ soil)), whereas correlations with total or soil solution metal concentrations were weak (R²<0.25). The is significantly affected by the presence or absence of the host plant at the sampling site. No effects of metals were identified at even at total Zn concentrations of about 2000 mg Zn kg⁻¹, whereas metal toxicity could be identified at lower most probable number (MPN) values. This survey shows that the metal toxicity on symbiotic nitrogen fixation cannot be generalized and that survival of a healthy population of the microsymbiont is probably the critical factor.     

应用~(15)N研究小麦花生两熟制氮肥分配方式对小麦、花生产量及N肥利用率的影响

在小麦花生两熟制条件下 ,全年氮肥两作 3次施用 (小麦基肥、追肥和花生基肥 )氮素利用率为 3 2 52 % ,一作两次施用 (小麦基肥和追肥 )氮素利用率为 3 7 0 1 % ,但前者土壤残留多 ,损失少 ,氮肥回收率为 69 2 4% ,较后者高 1 2 0 3个百分点。且前者有利于小麦、花生产量的形成 ,是小麦花生两熟制适宜的施肥方式。小麦当茬氮肥利用率为 1 6 80 %～ 3 5 63 %。夏直播花生当茬及前茬小麦基肥和追肥 (拔节期 )的氮肥利用率分别为 2 3 70 %、6 57%～ 7 70 %和 1 0 0 3 %～ 1 2 73 % ;施肥时间和施肥量对氮肥利用率影响较大     

氮肥不同施用技术对直播水稻氮素吸收及其产量形成的影响

应用15N示踪技术研究了不同氮肥施用技术对直播水稻氮素吸收及其产量形成的影响。结果表明 ,在氮肥用量相同的情况下 ,采用“一基三追” ,即在施基肥的基础上 ,追施苗肥、蘖肥和穗肥的施用技术能促进直播稻均衡生长 ,增加穗数 ,粒数和粒重 ,是一种适合直播水稻高产栽培的施肥技术。     

冬小麦节水灌溉制度下不同施氮量的氮素平衡

用15N示踪技术研究了节水灌溉条件下冬小麦对不同施氮量的氮素吸收和氮素平衡 ,并比较了两种灌溉制度下小麦对节肥施氮量的吸收动态。结果表明 ,与常规施氮量处理相比 ,节水灌溉条件下节肥施氮量处理的氮肥损失率降低 ,氮肥当季利用率和土壤残留率提高 ;基施氮肥的利用率高于追施氮肥 ;土壤肥料氮的残留率在 2 9%～ 41 %之间 ,分布于 1m土层中 ,其中60 %以上集中在 0～ 2 0cm土层 ;在整个小麦生长季内 ,肥料氮并没有淋洗到 1 30m以下。节肥施氮量在常规灌溉下的当季利用率比在节水灌溉下降低 1 6 6%。     

水稻‘甬优15’分期播种的气象条件适宜性试验研究

研究旨在通过分期播种试验,得到水稻‘甬优15’在本地播种最适宜播期,以提高其产量及品质。根据2016—2020年龙游国家农业气象试验站‘甬优15’分期播种试验数据和2018—2019年水稻品质数据,通过对比试验,得到‘甬优15’的产量与品质和播期的关系。结果表明：（1）播期对‘甬优15’的全生育天数和灌浆期天数有一定影响,主要表现为播期越晚全生育天数减少,灌浆期延长;（2）22℃是灌浆期水稻正常发育阈值,低于22℃的灌浆期平均气温会明显增加水稻灌浆乳熟时间;（3）‘甬优15’水稻直链淀粉含量普遍在10%左右,较易糊化,蛋白质含量接近7%,口感与营养含量较为平衡;（4）当播期推迟至6月中旬之后,‘甬优15’产量有明显降低,品质也有所下降;（5）‘甬优15’播种期控制在5月下旬6月上旬,能明显改善龙游本地单季晚稻产量。     

黑龙江西部旱作玉米水肥生产潜力试验研究

以氮肥、磷肥、补水量为试验因子,以玉米产量为指标,利用MINITAB15统计分析软件进行试验设计和数据分析,通过响应曲面法建立水肥相互作用对玉米产量影响的二次多项数学模型。利用模型的等值线图对影响玉米产量的关键因子及其相互作用进行了探讨,以玉米产量为响应值优化得出玉米生产潜力田间试验值的条件:氮肥为241.1 kg/hm2,磷肥为173.1 kg/hm2,补水量为108.3 m3/hm2,玉米田区生产潜力试验值为12 224 kg/hm2。     

不同灌溉方法对不同氮肥在温室土壤-植株中的氮素分配影响

以番茄为供试作物,采用田间微区试验的方法研究了不同灌溉方法和不同氮肥种类对氮素在土壤不同层次间的残留以及在番茄植株不同部位之间的分配。结果表明,在番茄整个生育期内,土壤中无机氮主要以NO3--N的形式存在,NH4+-N所占比例很小。0～100cm土层中,滴灌和沟灌各处理土壤中NH4+-N的含量在整个生育期内含量均比较低(低于6mgkg-1),且变化幅度不大,各土层NH4+-N的含量受灌溉方式和施肥的影响较小。无论是滴灌还是沟灌,番茄全生育期内0～20cm土层土壤NO3--N含量始终较高。沟灌易引起土壤中NO3--N向下层迁移,而滴灌对40～60cm土层及其以下各层次土壤的NO3--N分布影响作用不明显。硝态氮肥较铵态氮肥和酰胺态氮肥更易随水向深层土壤迁移。灌溉方式对肥料15N在果实、茎、叶中的分配比例没有明显影响,肥料15N在番茄地上部分各器官所含的量以果实为最高,其次为叶,茎中的含量最少;两种灌溉方法间肥料15N在果实、茎、叶的分配比例差异不大,平均为2.9∶1∶1.6。