精确和常规施氮对水稻产量与氮肥利用率的影响

以武香粳14为供试材料,研究精确施氮和常规施氮对水稻产量与氮肥利用率的影响。结果表明,精确施氮处理的穗数极显著地低于常规施氮处理;精确施氮处理的水稻产量高于常规施氮处理,但未达到显著水平;精确施氮处理的氮肥当季利用率比常规施氮处理高8.8%。     

N Mineralization as Affected by Long-Term N Fertilization and Its Relationship with Crop N Uptake.

A field experiment established in 1997 was conducted to study the effect of long-term N fertilizer application on N mineralization in a paddy soil determined using a laboratory anaerobic incubation followed with a field incubation and to measure the relationship between in situ N mineralization and crop N uptake. To estimate N mineralization in the laboratory, soil samples were collected from plots with N application at different rates for six years and were incubated. Soils treated with fertilizer N mineralized more N than unfertilized soils and mineralization increased with N application rates. Also, the fraction of total N mineralized increased with increasing N fertilizer application. These findings meant that a substantial portion of previously applied N could be recovered slowly over time in subsequent crops. The field incubation of the plot receiving no fertilizer N showed that the NH4^＋-N concentration varied greatly during the rice-growing season and seasonal changes of N mineralization were due more to accumulation of NH4^＋-N than NO3^-N. Hice N uptake increased up to a maximum of 82 kg N ha^-1 during the season. The close agreement found between in situ N mineralization and rice N uptake suggested that the measurement of in situ N mineralization could provide useful recommendations for adequate fertilizer N application.     

黑垆土有机氮组分对可矿化氮的关系

Mineralizable N and organic N components in different layers (0-15, 15-30, 30-45, 45-60, 60-80 and 80-100 cm) of six soils with different fertilities sampled from Yongshou County, Shaanxi Province, China,were determined by the aerobic incubation method and the Bremner procedure, respectively. Correlation,multiple regression and path analyses were performed to study the relation of minerallzable N to organic N components. Results of correlation and regression analyses showed that the amounts of the N mineralized were parallel to, and significantly correlated with, the total acid hydrolyzahle N, but was not so with the acid-insoluble N. Of the hydrolyzable N, the amino acid N and the ammonia N had a highly consistent significant correlation with the mineralized N, and their partial regression coefficients were significant in the regression equations, showing their importance in contribution to the mineralizable N. The amino sugar N, on the other hand, had a relatively high correlation with the mineralized N, but their partial regression coefficients were not significant in the regression equations. In contrast, the hydrolyzable unknown N had no such relations.Path analysis further indicated that the amino acid N and ammonia N made great direct contributions to the mineralized N, but the contributions of the amino sugar N were very low. These strongly suggested tha tthe mineralized N in the soils tested was mainly from the hydrolyzable N, particularly the amino acid N and ammonia N which are the major sources for its production.     

施氮方式对玉米氮吸收及土壤养分、N2O排放的影响

通过3年定位试验,研究不施氮肥、农民传统施氮、比传统施氮减量20%、减氮20%配合秸秆还田、减氮20%施用包膜尿素处理对玉米年际产量、植株氮吸收、土壤养分变化及N2O排放的影响。结果表明:包膜尿素处理产量最高,比空白处理增产18.50%,比产量次高的秸秆还田处理仅增产0.51%,二个处理间产量差异不显著;包膜尿素处理和秸秆还田处理可增加植株氮的吸收固定;秸秆还田处理的肥料利用率和植株总氮积累量高于包膜尿素处理,但其氮收获指数最低,为0.606,从注重品质角度,包膜尿素处理的效果略好于秸秆还田处理;各施肥处理都比空白处理提高了土壤主要养分含量,但从有机质、全氮、有效磷和速效钾含量提升综合评价,包膜尿素处理和秸秆还田处理对土壤的培肥作用好于农民习惯施肥处理;秸秆还田处理的N2O-N季节排放总量和排放系数都最高,分别为N 1.50 kg·hm-2·季-1和0.27。因此,从保产稳产、培肥地力、提升品质、减少N2O排放综合考虑,建议推广比农民习惯施肥量减少氮量20%的包膜尿素一次性施入在玉米生产中的应用。     

土壤全氮含量和施氮水平对棉花产量及氮肥利用效率的影响

为探讨不同土壤全氮含量水平下棉花的氮肥施用效应,采用盆栽试验,研究不同土壤全氮含量(0.58、0.64、0.74、0.83、1.29 g·kg~(-1))和施氮水平(每盆施加量分别为0、1.75、3.50 g)对棉花籽棉产量、氮素吸收、氮肥利用率的影响。结果表明,棉花单株籽棉产量和干物重随施氮量增加而显著增加,土壤全氮含量与施氮水平对棉株根、茎、铃壳部位的干物质积累具有显著的互作效应。同一土壤条件下,棉花单株氮素积累量随施氮水平增加而显著增加。氮肥表观回收率随土壤全氮含量上升呈先降后升的变化趋势,且在土壤全氮含量0.74 g·kg~(-1)时较低,但土壤全氮含量在0.58~0.83 g·kg~(-1)内,不同施氮处理间氮肥表观回收率差异不显著。氮肥农学利用率随土壤全氮含量增加呈下降趋势。土壤全氮含量0.74 g·kg~(-1)时的氮肥生理利用率高于土壤全氮含量0.58、0.64和0.83 g·kg~(-1)。土壤全氮含量1.29g·kg~(-1)条件下,低氮水平氮肥利用效率(表观回收率、农学利用率、生理利用率)显著优于高氮水平;土壤全氮含量0.58~0.74 g·kg~(-1)时,高氮可实现增产增效;土壤全氮含量0.83~1.29 g·kg~(-1)时,低氮能维持较高的产量和氮肥利用率。本研究结果为不同土壤全氮条件下棉花氮肥投入提供了参考。     

氮肥施用对冬小麦籽粒产量和氮素表观损失的影响

Excessive nitrogen （N） fertilizer application to winter wheat is a common problem on the North China Plain. To determine the optimum fertilizer N rate for winter wheat production while minimizing N losses, field experiments were conducted for two growing seasons at eight sites, in Huimin County, Shandong Province, from 2001 to 2003. The optimum N rate for maximum grain yield was inversely related to the initial soil mineral N content （Nmin） in the top 90 cm of the soil profile before sowing. There was no yield response to the applied N at the three sites with high initial soil mineral N levels （average 212 kg N ha^-1）. The average optimum N rate was 96 kg N ha^-1 for the five sites with low initial soil Nmin （average 155 kg N ha^-1） before sowing. Residual nitrate N in the top 90 cm of the soil profile after harvest increased with increasing fertilizer N application rate. The apparent N losses during the wheat-growing season also increased with increasing N application rate. The average apparent N losses with the optimum N rates were less than 15 kg N ha^-1, whereas the farmers＇ conventional N application rate resulted in losses of more than 100 kg N ha^-1. Therefore, optimizing N use for winter wheat considerably reduced N losses to the environment without compromising crop yields.     

缓/控释氮肥对夏玉米氮代谢、氮素积累及产量的影响

采用田间试验研究了缓/控释氮肥和不同施氮次数对夏玉米氮代谢、氮素吸收及产量的影响。结果表明,施氮显著增加了穗位叶硝酸还原酶活性、游离氨基酸含量、叶绿素含量和氮素积累量,提高了百粒重,增产20.93%~27.04%。与习惯两次施氮相比,一次性施用缓/控释氮肥和"苗肥30%+大口肥30%+吐丝肥40%"三次施氮的灌浆期游离氨基酸含量分别高2.77 mg g-1和4.07 mg g-1,氮素积累量分别提高了4.18%和9.74%,氮肥利用率分别提高了2.95和6.88个百分点,产量分别增加了4.88%和5.05%,实现了夏玉米增产和高效施肥。     

氮肥减施对稻-麦轮作体系作物氮素吸收、利用和土壤氮素平衡的影响

田间试验研究了稻-麦轮作体系中减施氮肥对作物氮素吸收、利用和土壤氮素平衡的影响。结果表明,与当地习惯施肥(小麦:N 225 kg/hm2,基肥与分蘖肥各半;水稻:N 210 kg/hm2,基肥和分蘖肥为3∶2)相比,减氮20%～30%处理产量并没有降低,而氮肥当季利用率、氮素农学利用率以及氮素偏因子生产力则有所增加;而且,氮肥分次追施,能增加子粒产量,并减少氮肥成本。虽然减氮20%～30%处理0—40 cm土层无机氮含量较习惯施肥处理降低,但是并没有降低植株地上部对氮素的吸收。在小麦和水稻收获期,减施氮肥处理0—100 cm土壤无机氮残留量低于习惯施肥处理;且稻-麦轮作系统中氮的表观损失主要发生在水稻季。初步认为,在长江中下游平原稻-麦轮作体系氮素过量施用地区,第一个轮作周期减施氮肥20%～30%不仅不影响产量,而且可提高氮素利用率,有利于保护环境。     

施氮水平对水稻氮肥利用率和径流负荷的影响

氮肥的过量施用导致显著的氮素损失,降低了环境质量。减少氮肥投入使其与作物需求相匹配对于保持农业生产的可持续发展具有至关重要的作用。为了评估不同施氮水平对水稻生产过程中的氮肥利用率和径流负荷的影响,利用长期实验基地开展了相关研究,实验共设置了4个施氮水平,即0、100、200和300 kg/hm~2。结果显示,随着施氮量的增加,粮食产量显著提高,而农学效率和偏肥生产力却呈相反趋势。作物地上部氮肥回收率则呈先增加后减少的趋势,并在200 kg/hm~2时达到峰值;氮素径流损失随施氮量的增加而增加。     

Effect of N supply on apparent recovery of fertilizer N as crop N and Nmin in soil during and after cultivation of winter cereals

Field trials were conducted over two years to investigate the effect of increasing N supply on apparent fertilizer N recovery by winter cereal crops (4 × wheat and 2 × barley) and on non‐recovered N. Apparent fertilizer N recovery was calculated by comparing N in fertilized and unfertilized crops. Non‐recovered N is defined as N which was neither found in crops nor soil mineral N (N_min = NH₄‐N + NO₃‐N). At N supply levels according to common farming practice (N_cfp = 190 to 220 kg N/ha), 60— 93% of the fertilizer N was recovered in crops at harvest, while at high N supply levels of 265 to 273 kg N/ha 58—76% of fertilizer N was recovered. There were small differences in soil N_min in 0—200 cm between N_cfp and unfertilized plots, but substantial increases in N_min occurred at the highest N supply. Amounts of non‐recovered N differed substantially between sites (maximum value of 84 kg N/ha). Non‐recovered N increased with increasing N rate on only 3 out of the 6 sites, indicating that N immobilization was not necessarily dependent on N rate. The fate of non‐recovered N was studied for a further year by growing catch crops on the sites after cereal harvest. N re‐mineralization deduced from changes in catch crop N and in N_min indicated that non‐recovered N had been immobilized in the soil. At three sites, crop N uptake was found between milk‐ripe stage and harvest (19 to 60 kg N/ha) suggesting substantial uptake of N mineralized from soil. However, grain yields were lower with N rates below N_cfp, indicating that late net soil N mineralization could not compensate for reductions in N fertilizer rate in these trials.     

不同施氮水平对冬小麦季化肥氮去向及土壤氮素平衡的影响

采用田间微区15N示踪技术,研究了冬小麦季化肥氮去向及土壤氮素平衡。结果表明,在供试土壤肥力水平和生产条件下,N 150 kg/hm2的施肥量已达到较高产量,再增加氮肥用量小麦产量不再增加。随着施肥量的增加,地上部吸氮量有所增加,氮肥的表观利用率和农学利用率持续下降,而生理利用率则表现为低—高—低的变化趋势。在低施氮条件下,小麦主要吸收土壤氮的比例高于化肥氮;在高施氮条件下,小麦吸收土壤氮的比例下降。冬小麦收获后,仍有26.7%4~0.6%的氮肥残留在0—100 cm土层中,17.4%2~4.8%的氮肥损失。残留在土壤剖面中的氮肥主要分布在表土层。随着施氮量的增加,土壤氮素总平衡由亏缺转为盈余;土壤根区硝态氮也由播前消耗转为在播前的基础上累加,两个小麦品种表现为相同的趋势。     

氮肥施用对科尔沁地区粮饲兼用玉米氮素积累及氮效率的影响

针对科尔沁地区粮饲兼用玉米高产栽培中氮肥用量偏多的问题,研究氮肥施用对科尔沁地区粮饲兼用玉米氮素积累及氮效率的影响。2012~2013年两个玉米生长季,以"金山10"为试验材料,设5个施肥处理:不施氮肥(CK);低氮180 kg/hm2(L);推荐施氮量260 kg/hm2(R);氮肥配施有机肥,总施氮量260 kg/hm2(C);农民传统施氮270 kg/hm2(F)。结果表明:在5个施肥处理中,以氮肥配施有机肥处理玉米产量最高,该处理生物产量和经济产量分别比其它施肥处理增加了3.52%~62.77%和6.29%~56.02%。氮肥利用效率表现为CK处理最高,氮肥施用量高时氮肥利用效率低。氮肥配施有机肥处理氮肥回收效率、生理效率和农学效率高于其它施肥处理,该处理这3项指标和其它施肥处理间差异达到极显著水平(P0.01),该处理氮肥回收效率、生理效率和农学效率分别比低氮处理高10.70%~16.22%、2.81%~6.21%和5.16%~6.90%,比推荐施氮处理高3.44%~7.36%、1.62%~4.49%和3.42%~3.50%,比农民传统施氮处理高4.89%~8.60%、1.11%~5.70%和3.79%~4.49%。增施氮肥和氮肥配施有机肥提高了粮饲兼用玉米氮素积累量,后者氮素积累总量比其它施肥处理分别高1.88~11.42g/m2(2012年)和0.86~11.88 g/m2(2013年),比推荐施氮和农民传统施氮处理分别高0.89~1.71 g/m2和0.86~1.93 g/m2。科尔沁地区粮饲兼用玉米高产栽培中,氮肥配施有机肥有利于提高粮饲兼用玉米的产量,增加氮素积累量,是该地区比较合理的施肥方式,上述研究以期为科尔沁地区粮饲兼用玉米的合理施肥提供理论依据。     

Availability of N from Casuarina residues and inorganic N to maize, using 15N isotope techniques

 The contribution of N from Casuarina equisetifolia (casuarina) residues to maize with inorganic N (ammonium sulphate) supplementation was studied in a pot experiment using ¹⁵N labelling techniques. A single rate of N application of 100 mg N kg^–1 soil was applied as N-ammonium sulphate in combination with casuarina residues in the proportions 100 : 0; 75 : 25; 50 : 50; 25 : 75 and 0 : 100, respectively. The directly ¹⁵N-labelled casuarina residue and indirect labelling (unlabelled casuarina + ¹⁵N soil) were compared to estimate the proportion and amount of N derived from the residue and fertilizer. The application of ammonium sulphate at a high rate significantly affected shoot dry matter (P<0.05) and likewise reduced the contribution of soil-derived N compared to residues. Total recoveries by maize of residue N and applied fertilizer N averaged 11% and 24%, respectively. Residue and fertilizer use efficiencies were not influenced by the addition of different rates of fertilizer or residue. The estimation of the contribution of N from different sources showed that direct measurement of the ¹⁵N-labelled organic source was more reliable. Received: 10 September 1997     

氮肥与有机肥配施协调土壤固定态铵与可溶性氮的研究

【目的】 土壤固定态铵是肥料氮的一个“临时贮藏库”,可逐渐释放以供作物利用,土壤可溶氮则是土壤固定态铵的重要来源,因此研究设施条件下氮肥与有机肥配施对土壤固定态铵和可溶性氮含量的动态变化以及相互关系的影响,对于设施生产中安全高效的施肥管理有着重要意义。 【方法】 以番茄为试材,温室内连续两年进行田间小区试验,设不施肥(CK)、施N量0、187.5、375. 562.5 kg/hm2 (N0、N1、N2、N3)、单施有机肥(M,75000 kg/hm2)以及有机肥与氮肥配施处理(MN0、MN1、MN2、MN3)。分析了土壤固定态铵和可溶性氮(土壤矿质氮和可溶性有机氮)含量动态变化。 【结果】 施肥显著提高了0-30 cm土层土壤固定态铵和可溶性氮的含量(P < 0.01);各施肥处理均以第1穗果膨大期时含量最高。总体来看,不施有机肥条件下,土壤固定态铵和矿质氮、可溶性有机氮的含量均以施N 375.0 kg/hm2处理为最高,而在氮肥与有机肥配施条件下,以施N 375.0 kg/hm2与有机肥75000 kg/hm2配施处理和施N 562.5 kg/hm2与有机肥75000 kg/hm2配施处理的土壤固定态铵和矿质氮、可溶性有机氮含量为最高,但未发现氮肥施用量对土壤固定态铵含量产生显著影响;除收获期20-30 cm土层外,整个生长季内土壤固定态铵和矿质氮含量之间均有显著的正相关关系(P < 0.05),部分土层土壤固定态铵与可溶性有机氮之间也有显著的正相关关系(P < 0.05)。 【结论】 设施番茄栽培条件下,土壤固定态铵和可溶性氮在土壤氮素的固持与释放方面极显著相关,施无机N 375.0 kg/hm2配合有机肥75000 kg/hm2,可较好地提高土壤中的氮的有效性,更好地协调土壤供氮能力。     

Kinetics of C and N mineralization, N immobilization and N volatilization of organic inputs in soil

C and N mineralization data for 17 different added organic materials (AOM) in a sandy soil were collected from an incubation experiment conducted under controlled laboratory conditions. The AOM originated from plants, animal wastes, manures, composts, and organic fertilizers. The C-to-N_AOM ratios (η_AOM) ranged from 1.1 to 27.1. Sequential fibre analyses gave C-to-N ratios of soluble (η_Sol), holocellulosic (η_Hol) and ligneous compounds (η_Lig) ranging from 1.1 to 57.2, 0.8 to 65.2, and 3.5 to 25.3, respectively. Very different patterns of net AOM-N mineralization were observed: (i) immobilization for four plant AOM; (ii) moderate mineralization (4-15% AOM-N) for composts; (iii) marked mineralization (11-27% AOM-N) for 1 animal AOM, 1 manure and 2 organic fertilizers; and (iv) high rates of transformations with possible gaseous losses for some N-rich AOM.The Transformation of Added Organics (TAO) model proposed here, described AOM-C mineralization (28 °C, 75% WHC) from three labile (L′), resistant (R) and stable (S) compartments with the sole parameters P′_L and P_S=fractions of very labile and stable compounds of AOM, respectively. Dividing the C-compartments by their C-to-N estimates supplied the remaining N_AOM fraction (RAONF). A P_im parameter split the TAO nitrogen fraction (TAONF=added N-RAONF) into two compartments, immobilized (imN) and inorganic (inorgN) N. A P_im>0 value meant that all the TAONF plus a fraction (P_im−1) of native soil inorganic N was immobilized. Additional N mineralization was predicted when necessary from imN by first order kinetics (constant k_remin). The TAO version with two parameters P_im and k_remin allowed us to predict very different patterns of N mineralization and N immobilization. In a few cases, a further first order kinetic law (constant k_v) was added to predict N volatilization from inorgN. Two hypotheses were tested: (i) η_L′, η_R, η_S (C-to-N of L′, R and S)=η_Sol, η_Hol, η_Lig, respectively, (ii) η_L′=η_R=η_S=η_AOM. The first hypothesis was validated by these data, and the second was a good approximation of the former one. In all the cases, predictions were in good agreement with measured values.     

不同施氮量对夏玉米产量、氮肥利用率及氮平衡的影响

通过田间小区试验研究了不同施氮量对夏玉米产量、氮肥利用率、硝酸盐淋溶及氮平衡的影响。结果表明，施氮对夏玉米子粒有显著的增产作用，但随施氮量的增加产量变化不大。氮肥利用率在9．2％-22．6％之间，随施氮量的增加而降低。施氮可明显提高0-160cm剖面土壤NO3^--N含量，而且随深度的增加NO3^--N含量呈降低趋势，累积峰主要在20—60cm之间。玉米收获后，随着施氮量的增加氮素的损失量增加，各施氮处理的硝态氮残留量在121～221kg／hm^2之间，以N250处理的残留量最高，残留率近65％。     

不同施氮量对夏玉米产量、氮肥利用率及氮平衡的影响

通过田间小区试验研究了不同施氮量对夏玉米产量、氮肥利用率、硝酸盐淋溶及氮平衡的影响。结果表明,施氮对夏玉米子粒有显著的增产作用,但随施氮量的增加产量变化不大。氮肥利用率在9.2%~22.6%之间,随施氮量的增加而降低。施氮可明显提高0~160 cm剖面土壤NO3--N含量,而且随深度的增加NO3--N含量呈降低趋势,累积峰主要在20~60 cm之间。玉米收获后,随着施氮量的增加氮素的损失量增加,各施氮处理的硝态氮残留量在121~221 kg/hm2之间,以N250处理的残留量最高,残留率近65%。     

不同氮水平下粳稻的氮素累积和转运特征

Developing high-yielding rice （Oryza sativa L.） cultivars depends on having a better understanding of nitrogen （N） accumulation and translocation to the ear during the reproductive stage. Field experiments were carried out to evaluate the genetic variation for N accumulation and translocation in different Japonica rice cultivars at different N rates and to identify any relationship to grain yield in southeast China. Four Japonica cultivars with similar agronomic characteristics were grown at two experimental sites in 2004 with three N rates of 0, 60, and 180 kg N ha^-1. Dry weights and N contents of rice plants were measured at tillering, initiation, anthesis, and maturity. Grain yields exhibited significant differences （P 〈 0.05） among the cultivars and N application rates. Increasing N rates improved N uptake at anthesis and maturity in all four cultivars （P 〈 0.05）. N translocation from vegetative organs to the grains increased with enhanced N rates （P 〈 0.05）. N translocation to the grains ranged from 9 to 64 kg N ha^-1 and N-translocation efficiency from 33% to 68%. Grain yield was linear to N uptake at anthesis （r^2 = 0.78^＊＊） and N translocation （r^2 = 0.67^＊＊）. Thus, cultivars with a high N uptake at anthesis, low residual N in the straw at maturity, and appropriate low N fertilizer supply in southeast China should efficiently increase N-recovery rate while maintaining grain yield and soil fertility.     

控释氮肥减量对糜子产量、氮素利用及土壤氮含量的影响

针对黄土高原旱作区糜子生产中氮肥种类单一、肥料利用效率低的问题,本试验以当地习惯施氮尿素N 120kg/hm²(TN)为对照,设置控释氮肥N 120kg/hm²(T1)、108kg/hm²(T2)、96kg/hm²(T3)、84kg/hm²(T4)、72kg/hm²(T5)和不施肥(T0)七个处理,探究不同控释氮肥处理下土壤全氮、微生物量氮、硝态氮和铵态氮含量的变化规律,分析糜子成熟期氮素积累分配、氮素利用效率及产量对控释氮肥的响应,以期为建立旱地糜子控释氮肥一次性基施轻简栽培技术提供支撑。结果表明：与施用尿素相比,等量控释氮肥可以提高糜子抽穗期和成熟期土壤全氮、微生物量氮、硝态氮和铵态氮含量分别达0.38%~5.51%、1.76%~7.63%、5.41%~11.80%和4.04%~14.77%,其中硝态氮和铵态氮含量两年均显著高于TN,随着控释氮肥减量糜子田各形态氮素均呈降低趋势,减氮量达20%以上时土壤硝态氮和铵态氮含量均显著低于TN处理。施用控释氮肥可以提高糜子成熟期氮素积累量1.97%~3.21%,增加糜子氮素向籽粒中的分配比例0.55%~1.18%,控释氮肥减量20%以上时糜子氮素积累量显著低于尿素全量基施处理。与普通尿素相比,控释氮肥提高了糜子氮肥表观利用率、氮肥偏生产力及氮肥农学利用率,增幅分别为3.29%~4.59%、3.88%~4.14%和5.01%~7.63%,其中氮肥偏生产力处理间差异达显著水平,随着控释氮肥减量糜子氮肥表观利用率、氮肥偏生产力及氮肥农学利用率均呈上升趋势。施用控释氮肥通过增加单位面积穗数和穗重显著提高了糜子产量两年分别达3.88%和4.47%,控释氮肥减量20%以下时糜子产量与尿素差异不显著。相关性分析结果表明,糜子氮素积累量与产量呈极显著正相关,氮素利用效率指标与土壤硝态氮含量相关性最强。综上所述,施用控释氮肥较尿素可显著提高糜子生育中后期土壤供氮能力,促进糜子对氮素的吸收利用进而增加产量,且在适量减氮20%时并未显著降低糜子产量,因此控释氮肥在糜子生产中有较大的应用前景及减氮潜力。     

秸秆还田施氮调节碳氮比对土壤无机氮、 酶活性及作物产量的影响

秸秆的质量,特别是C/N是影响秸秆分解速率和养分释放的重要因素。在秸秆还田条件下,如何科学合理地施用氮肥是秸秆利用和优化施肥研究的关键问题。本研究以秸秆还田施入碳氮的C/N为切入点,于2012—2013年通过田间试验(设秸秆不还田不施肥、秸秆还田不施氮、秸秆还田施用无机氮肥调节C/N为10∶1、16∶1和25∶1以及秸秆还田施用有机氮肥调节C/N为25∶1处理),研究秸秆还田不同氮输入对小麦-玉米轮作田土壤无机氮、土壤微生物量氮、酶活性以及作物产量的影响。结果表明:1)在C/N为25∶1下,施用有机氮肥和无机氮肥对土壤无机氮含量无显著影响;在施用无机氮肥的情况下,C/N越低土壤无机氮含量越高。2)秸秆还田施氮提高了土壤微生物量氮含量,但是各秸秆还田施氮处理之间差异不显著;秸秆还田不同施氮处理对脲酶活性无显著影响;秸秆还田施氮提高了FDA水解酶活性,并随C/N降低呈升高趋势,施用无机氮肥的效果强于施用有机氮肥的。3)秸秆还田施用无机氮肥显著提高了小麦和玉米地上部生物量,施用无机氮肥调节C/N为10∶1和16∶1相比于C/N为25∶1提高了小麦和玉米的苗期和成熟期地上部生物量;施用有机氮肥调节C/N为25∶1相比秸秆还田不施氮对地上部生物量无显著影响。秸秆还田施用无机氮肥提高了作物产量,施用无机氮肥调节C/N为16∶1产量最高,而施用有机氮肥调节C/N为25∶1有降低作物产量的趋势。综合以上结果来看,施用无机氮肥调节C/N为16∶1较为合理。