共查询到20条相似文献,搜索用时 187 毫秒
1.
长期不同施肥处理对红壤稻田土壤性质及晚稻产量与品质的影响 总被引:6,自引:0,他引:6
为了探明长期施肥对红壤稻田土壤性质及晚稻产量与品质的影响,以期为南方红壤稻田优质高产协同提升目标下的土壤高效培肥提供理论依据。依托始于1982年的长期定位试验,考察了有机肥(M)、化肥氮磷钾配施有机肥(NPKM)、化肥氮磷钾(NPK)、化肥氮钾配施有机肥(NKM)、化肥氮磷配施有机肥(NPM)、化肥磷钾配施有机肥(PKM)、不施肥(NF)对稻田土壤养分含量、酶活性、阳离子交换能力、籽粒产量构成与稻米品质的影响。结果表明:与NF处理相比,各施肥处理均可不同程度提高土壤有机碳及氮磷钾含量,增强脲酶、酸性磷酸酶、蔗糖酶和纤维素酶活性,提升土壤阳离子交换能力,进而提高水稻籽粒产量;进一步比较稻米品质指标发现,施肥可不同程度提高精米率、整精米率、直链淀粉和蛋白质含量,降低垩白粒率和垩白度,使胶稠度变长。其中,以NPKM处理对土壤有机碳、养分及酶活提升效果相对较好,导致该处理籽粒产量最高,其加工、外观、食味和营养品质亦相对更优。由此可见,有机肥与化肥氮磷钾平衡配施不仅能改善土壤理化性状、培肥土壤,而且可协同提升籽粒产量与稻米品质。 相似文献
2.
稻草覆盖对花生木薯间作系统产量和土壤性状的影响 总被引:3,自引:0,他引:3
研究了稻草覆盖对丘陵红壤旱地作物产量提升及土壤改良的效果,以期为南方丘陵红壤旱地土壤培肥、改良及稻草资源合理利用提供指导。通过设置不覆盖稻草、稻草覆盖和稻草覆盖+腐秆菌3个处理,分析了不同稻草覆盖对作物产量、土壤水分、土壤生物活性及土壤速效养分等指标的影响。结果表明:稻草覆盖能显著提高花生、木薯产量,而添加腐秆菌对花生、木薯产量增产效果不明显;稻草覆盖可明显促进土壤速效养分的积累,其中以速效钾提高最大,并显著提高土壤生物活性;稻草覆盖能明显提高土壤含水量,但主要影响0~20 cm土层土壤含水量。本试验条件下,稻草覆盖能显著提高作物产量,若增施腐秆菌可加速稻草秸秆的腐解,促进土壤速效养分的积累。 相似文献
3.
4.
目前我国禁止秸秆的焚烧,所以秸秆还田处理不仅能减少大气的污染,而且能提高土壤的腐解能力,从而提高大田的肥力。试验设置秸秆还田量R0(稻草不还田,0);R1(常规还田量,6 000 kg/hm~2)加入紫云英配施3种水平的氮肥N1(不施氮,0)、N_2(施氮,15 kg/hm~2)、N_3(施氮,30 kg/hm~2),通过试验比较不同处理水稻的生长性状及产量表现。结果表明:在同等施肥条件下,秸秆还田处理与秸秆还田+紫云英处理的水稻,整个生育期表现明显优于其他处理;常规施肥与秸秆+紫云英处理的水稻产量略低,秸秆还田+紫云英处理的水稻整体的分蘖数、穗实粒数高于其他处理,千粒重表现一般,所以产量高。结论:长期过量地施用化肥在对土壤造成板结的同时,还会影响作物养分的吸收,导致减产。利用秸秆还田增加紫云英配施化肥,一方面提高了土壤的肥力,另一方面增加了土壤的微生物活动,还提高了作物产量。 相似文献
5.
采用土壤养分状况系统研究法(ASI),又称土壤养分状况综合评价法,研究河西灌区施钾对啤酒大麦产量、品质的影响,并确定甘肃河西灌区合理经济的施钾量。结果表明固定N、P及微量元素等养分后,与不施钾比较。施钾的啤酒大麦的产量增加279~1325kg/hm^2,增幅5.9%~27.9%,千粒重提高0.1~2.8g;钾水平在0~150kg/hm^2范围内,随着施钾量的增加,产量、经济效益、千粒重也随之增加,籽粒粗蛋白含量降低。说明施钾提高了啤酒大麦的产量与经济效益,改善并保证了啤酒大麦的品质,合理经济的钾用量为150kg/hm^2. 相似文献
6.
有机肥和生物炭对旱地土壤养分累积利用及小白菜生产的影响 总被引:3,自引:1,他引:2
为探明有机肥与生物炭对旱地作物种植及环境效应的影响,利用田间小区长期定位试验,研究了有机无机肥配施及添加生物炭对土壤养分变化、小白菜产量和品质以及肥料利用率的影响。结果表明:与施纯化肥处理相比,有机无机肥配施并添加生物炭的土壤全氮、碱解氮、全钾、速效钾、速效磷、有机质分别提高0.52%、1.46%、0.44%、19.65%、1.58%、30.31%;氮、磷肥利用率分别提高了195.35%、307.3%。小白菜体内可溶性糖和氨基酸含量分别提高15.42%、26.24%;增产74.37%。有机无机肥配施且添加生物炭处理能有效提高土壤养分含量,促进小白菜地上部氮磷养分累积,提高小白菜产量,改善小白菜品质。 相似文献
7.
化肥减施配合生物有机肥对土壤特性和燕麦产量的影响 总被引:1,自引:0,他引:1
针对燕麦生产中肥料施用过量的问题,在大田试验条件下,设置减施50%化肥(50D)、减施25%化肥(75D)、100%化肥(CK)、减施50%化肥+生物有机肥(50DM)、减施25%化肥+生物有机肥处理(75DM)等5个处理,分析了土壤3种酶活性、土壤养分含量和燕麦产量,研究减量磷酸二铵并配施生物有机肥对土壤特性和燕麦产量的影响。结果表明:在燕麦开花期和收获期75DM处理下0~20 cm土壤蔗糖酶、脲酶活性和过氧化氢酶活性显著提高,在收获期较CK分别提高7.6%、12.6%和25.2%;与CK相比,化肥配施生物有机肥处理有效增加了燕麦收获期土壤碱解氮含量,增幅为9.8%~22.9%,且以75DM处理最优。化肥配施生物有机肥处理下燕麦有效穗数、穗粒数和千粒重显著增加,其中以75DM处理籽粒产量最高,分别较75D和CK提高24.5%和9.3%。相关性分析表明,土壤酶活性、土壤养分与燕麦产量呈显著正相关。在大田生产条件下,减施25%化肥并配施600 kg/hm2生物有机肥可提高土壤酶活性,增加土壤中有效性氮、磷、钾的含量,从而改善土壤肥力和土壤养分状况,有利于燕麦增产。 相似文献
8.
长期施肥对春玉米耕层土壤养分和肥料贡献率的影响 总被引:1,自引:0,他引:1
为明确连续施氮对耕层土壤养分变化和肥料贡献率的影响,以辽北昌图2007-2016年的长期定位施肥试验为依托,从不同施氮水平和施氮方式两方面入手,共设置9个处理,研究长期连续施肥对耕层土壤养分变化及春玉米产量和肥料贡献率的影响。结果表明,氮肥在提高土壤有机质、全氮等养分方面受施氮量影响较大,而施氮量相同时与施肥方式无明显关系,长期连续不施氮肥使土壤有机质、全氮含量在维持原有水平下略有下降,增施氮肥后,无论哪种施肥方式,都可以增加土壤速效养分含量,有利于培肥地力。氮肥对玉米的增产作用已有研究,但是当化学肥料用量已经能够满足作物正常生长需要时,继续提高氮肥用量不能实现作物产量的持续增加,因此玉米高产应为中氮用量,10 a后肥料贡献率从高到低分别是N_2N_3N_常N_1,与10 a平均结果相一致。因此,氮肥是影响春玉米耕层土壤养分变化的重要元素,缺氮使土壤养分贮量和供应能力随种植年限的延续而下降,适量氮肥与磷钾配施可使耕层土壤有效养分维持平稳增加。本试验区域内推荐氮肥用量为241.5 kg/hm~2,拔节中期追施一次的农田操作方式即可达到维持土壤较高肥力水平和粮食增产的和谐关系。 相似文献
9.
采用大田试验,研究等氮水平下不同肥料、分配方式及与磷、钾配施对夏玉米植株氮磷钾和土壤速效氮磷钾含量及产量的影响。结果表明:在常规施氮(底施和大口追施)、常规优化施氮(底施和大口、吐丝2 次追施)和控释氮素配施2 种磷钾水平用量(P2O5 105-K2O 120 kg/hm2和P2O5 157.5-K2O 180 kg/hm2)组合中,各处理大口期前植株干质量、氮磷钾含量、氮磷钾累积量以常规施氮高于控释尿素;成熟期穗粒数、千粒重和产量以控释尿素处理高于常规优化施氮处理,后者又高于常规施氮处理。等氮处理下,增施磷钾提高了植株磷、钾含量和累积量,植株含氮和氮累积量明显增加。各处理土壤速效氮、磷含量随生育进程不断降低,速效钾含量表现为“V”字型特征;土壤速效养分与植株养分含量表现趋势相反,生育后期控释尿素低于常规优化施氮,后者又低于常规处理。增施磷钾明显提高各时期土壤速效磷、钾含量,但使土壤氮含量降低。与对照相比,各处理单位氮、磷、钾生产籽粒能力降低;各处理中,单位养分生产籽粒以常规施氮高于常规优化施氮,后者又高于控释尿素。肥料养分利用率以控释尿素处理最高,其次为常规优化施氮,常规施氮最低。表明与常规施氮相比,控释尿素结合磷钾底施,能协调生育期间养分供应,改善植株中后期氮磷钾吸收、积累和物质生产,是改善养分利用效率、穗部性状和产量的优化施肥技术。 相似文献
10.
不同水分管理条件下秸秆还田方式对作物养分吸收、产量及土壤培肥的影响 总被引:1,自引:0,他引:1
盆栽试验结果表明,常规淹水和无水层栽培,秸秆还田的水稻产量提高,油菜秸秆和小麦秸秆处理之间差异不显著,秸秆不同利用方式以覆盖效果较好。秸秆还田处理的后茬油菜产量比不施秸秆的提高1.8%~9.3%。对氮磷钾吸收的影响,常规淹水多于无水层栽培,但秸秆还田能促进氮磷钾的吸收利用。无水层栽培比常规淹水栽培的土壤有机质等养分提高,说明无水层栽培条件下更利于还田秸秆的养分释放和土壤对养分的保持。 相似文献
11.
通过对旱地莜麦不同种植密度的试验,进一步研究了密度对莜麦主要农艺状、干物质积累、叶面积系数及产量构成因素的影响,确定出在中等肥力条件下,晋北高寒区旱地莜麦的适宜种植密度为:播量600—675万粒/hm2,基本苗400—500万株/hm2。在该密度范围之内,群体和个体生长良好,产量各构成因素间关系协调,合理密植是获得旱地莜麦高产、稳产的关键技术。 相似文献
12.
对早地裸燕麦光合作用与产量形成生理指标的研究结果表明:旱坡和旱滩地裸燕麦的合理叶面积系数分别为2和2.5—3,构成每亩的最高产量分别为109.15公斤和166.25公斤;光合强度最高值出现在孕穗期,其值为13—24mg/dm~2/小时;旱坡和旱滩地裸燕麦的总光合势分别以3万—3.5万m~2·日和5万—7万m~2·日的产量较高;裸燕麦的净光合生产率为 7—10g/m~2日的产量较高.通过对上述生理指标的阐述,为旱地裸燕麦丰产栽培提供了理论依据. 相似文献
13.
In a field experiment, peas (Pisum sativum L.) and oats (Avena sativa L.) were grown as sole crops and intercrops, fertilized with horse manure and yard-waste compost derived from shrub and garden cuttings at 10 t C ha−1 each. The objectives were to compare the effects of these organic fertilizer and cropping system in organic farming on (a) yield of peas and oats, grown as the sole crop or intercropped, as well as N2 fixation and photosynthetic rates, (b) the yield of wheat as a succeeding crop, (c) microbial biomass indices in soil and roots, and (d) microbial activity estimated by the CO2 evolution rate in the field and the amount of organic fertilizers, recovered as particulate organic matter (POM). In general, organic fertilizer application improved nodule dry weight (DW), photosynthetic rates, N2 fixation, and N accumulation of peas as well as N concentration in oat grain. Averaged across fertilizer treatments, pea/oat intercropping significantly decreased nodule DW, N2 fixation and photosynthetic rate of peas by 14, 17, and 12%, respectively, and significantly increased the photosynthetic rate of oats by 20%. However, the land equivalent ratio (LER) of intercropped peas and oats exceeded 1.0, indicating a yield advantage over sole cropping. Soil microbial biomass was positively correlated with pea dry matter yields both in sole and intercropped systems. Organic fertilizers increased the contents of microbial biomass C, N, P, and fungal ergosterol in soil and CO2 production, whereas the cropping system had no effects on these microbial indices. According to the organic fertilizer recovered as POM, 70% (manure) and 64% (compost) of added C were decomposed, but only 39% (manure) and 13% (compost) could be attributed to CO2–C during a 101-day period. This indicated that horse manure was more readily available to soil microorganisms than compost, leading to increased grain yields of the succeeding winter wheat. 相似文献
14.
播种期对农牧交错带莜麦生长发育和产量形成的影响 总被引:5,自引:1,他引:4
为了探索播种期对莜麦生长发育和产量形成的影响,为农牧交错带莜麦适期播种和高产栽培提供依据,此研究采用随机区组排列设计,通过两年的分期播种实验,研究播种期对莜麦生育期、形态指标和产量形成的影响。结果表明:播种期对莜麦生育期、株高和单株叶面积影响显著,中播和晚播莜麦的株高和单株叶面积均高于早播。随着播期推迟,莜麦营养生长期缩短,温度是主要原因,生殖生长期延长,降水是主要原因,生育期总天数缩短,莜麦生殖生长阶段在整个生育期中所占比例增加。播期处理对莜麦单株分蘖数、穗数和千粒重影响达显著水平。两年试验中,中播(5月18日)产量平均可达107.7 g/m2,均高于早播(5月8日)和晚播(5月28日)。建议农牧交错带地区莜麦适宜播期安排在5月18日左右。 相似文献
15.
长期有机无机肥配施对土壤肥力及水稻产量的影响 总被引:35,自引:2,他引:33
以长期定位试验为基本材料,研究了20年的连续施用有机肥、有机肥无机肥长期配施对土壤肥力及水稻产量的影响。结果表明:(1)施用有机肥料,土壤全氮含量比化学肥料要高,有效氮平均高出15.9mg/kg;(2)施用磷肥和钾肥是提高土壤磷钾养分的基础。施肥使土壤有效磷平均高出18.8mg/kg,有效钾平均高出27mg/kg;(3)施用有机肥料改善土壤物理性质,配施不明显改变pH。有机肥料使土壤容重下降12.6%,田间持水量平均上升19.7%。(4)有机无机肥连续配施,能持续高产稳产。稻谷总产(19年早、晚稻平均),以NPKM为最高(5556.8kg/hm2),比单施化肥NPK)增产704.3kg/hm2,增产14.5%。 相似文献
16.
Yan-Jie FANG Xu-Cheng ZHANG Xian-Feng YU Hui-Zhi HOU Hong-Li WANG Yi-Fan MA Guo-Ping ZHANG Kang-Ning LEI 《作物学报》1962,46(12):1958-1969
To elucidate soil water consumption characteristics and provide scientific basis for forage maize, a reasonable fertilization model under vertical rotatory subsoiling was studied on semi-arid lands of Loess Plateau. Three patterns including traditional fertilization (F), 50% replacement of chemical fertilizers using organic fertilizers (FOF), and complete organic fertilization (OF) were designed in 2017 and 2019 in order to investigate their effects on crop evapotranspiartion (ETc), grain yields, and water use efficiency (WUE). The results showed that there was a significant relationship among soil water storage (SWS), ETc, precipitation, and distribution in 0-300 cm layers. During the dry year, compared to F, FOF and OF increased SWS in 0-300 cm at anthesis stage by 11.9% and 11.7%, respectively, significantly consuming SWS in 0-60 cm layers. ETc in 0-300 cm treated with FOF was increased by 1.4% and 10.3%, compared to OF and F, whereas ETc before anthesis was decreased by 13.0% compared to F, but increased by 0.3% compared to OF, while ETc after anthesis was increased by 20.7% and 23.9%. During the wet year of 2018, compared to F, FOF and OF increased ETc before anthesis by 13.5% and 31.6%, while decreased it by 21.9% and 36.1%. During 2019, FOF increased ETc before anthesis by 9.7% and 11.9%, compared to F and OF, while it decreased ETc after anthesis by 8.1% compared to F. Furthermore, each fertilization pattern had significant effects on SWS at each layer across 0-300 soil profile. Regardless of different precipitation years, ETc from 0-300 cm layers of FOF was higher than that of F, but the difference was not significant, and was lower than that of F during the wet years of 2018 and 2019, and it had no significant differences to OF. Compared to F and OF, FOF increased dry matter weight at harvest by 4.1%-10.4% and 2.7%-11.5%, improved grain yields by 3.8%-9.4% and 10.1%-12.0%, increased population biomass yields by 5.6%-8.9% and 3.1%-15.5%, and consequently improved WUE based grain yields by 7.9%-11.1% and 1.5%-14.6%, respectively. In conclusion, 50% substitute of chemical fertilizers by organic ones could optimize soil water characteristics, increase crop effective water consumption, boosts yields and WUE, and it can be an efficient fertilizer management model for the high-yield and high-efficiency of forage maize productions in semi-arid areas of Loess Plateau. 相似文献
17.
旱地红壤长期定位施肥养分下移特征及作物产量效应研究 总被引:5,自引:1,他引:4
为了给合理施肥与面源污染防治提供科学依据,以玉米为试材,试验设4个处理,研究了旱地红壤长期施肥养分在剖面中的下移特征和作物产量效应。结果表明长期施用N、P肥和有机肥显著增加0~20 cm碱解氮、速效磷、速效钾和有机质含量;N与P或有机肥配施明显减少20~60 cm碱解氮含量,60~80 cm碱解氮含量差异较小;P与有机肥配施减少20~40 cm速效磷含量;40~60 cm速效磷含量差异极小;40 cm以下速效钾差异不明显,有机质60~80 cm以下无差异。低产红壤经28年改良培肥,生产性能达到中上等肥力水平。长期施N和NP,玉米籽粒分别在第8、24年绝收,NMP处理比NP处理显著增产。 相似文献
18.
P. Banik P. K. Ghosal T. K. Sasmal S. Bhattacharya B. K. Sarkar D. K. Bagchi 《Journal of Agronomy and Crop Science》2006,192(5):331-343
The effect of organic sources of nutrients and inorganic fertilizers, was studied on grain yield of lowland rice and some aspect of soil quality parameters in a field experiment at Agricultural Experimental Farm of Indian Statistical Institute, Giridih, situated at eastern plateau region of India, during consecutive years 1997–2002. Chemical fertilizers and various organic matters were applied to two rice cultivars, Sabita and Subarna. The highest mean grain yield was 3.53 t ha?1 and maximum agronomic efficiency was 60.3 % with the application of inorganic fertilizer followed by cow dung, where 3.47 t ha?1 grain yield was recorded with an agronomic efficiency of 57.5 %. Grain yield of rice recorded under organic sources of nutrients was not significantly different from that of inorganic fertilization though there was improvement in soil quality parameters under organic sources. Soil organic carbon (0.72 %), microbial biomass‐C (279.23 μg g?1 dry soil), urease activity with buffer (33.54 μg urea hydrolyzed g?1 oven‐dry soil) and non‐buffer (21.97 μg urea hydrolyzed g?1 of oven‐dry soil) methods and acid phosphatase activity (2.24 μg para‐nitrophenol released g?1 of oven‐dry soil) analysed following the harvest of the crop were highest under cow dung manure treatment; the most efficient organic source under the experiment. Mean grain yield of rice was significantly higher in Sabita cultivar over Subarna. The regression analyses among the variables have shown that there was linear relationship among soil parameters and grain yield of rice. 相似文献
19.
生物炭及其与化肥配施对灰潮土土壤理化性质、微生物数量和冬小麦产量的影响 总被引:7,自引:3,他引:4
为弄清生物炭在灰潮土上的施用效果,促进生物炭的科学应用。采用田间试验,研究了空白对照(CK)、单施生物炭(B)、单施化肥(F)和生物炭与化肥配施(BF)4个处理对灰潮土土壤理化性质、微生物数量和冬小麦产量的影响。结果表明:单施生物炭与空白对照相比,以及生物炭化肥配施与单施化肥处理相比,施用生物炭均能显著提高土壤有机碳和速效钾含量,但对土壤容重、pH、碱解氮、速效磷的影响不显著;施用生物炭后土壤中的细菌和放线菌数量增加且在越冬期达到显著差异水平,但真菌数量表现出一定的降低趋势。与空白对照相比,单施生物炭秸秆和籽粒干重分别增加6.8%和4.2%;与单施化肥相比,生物炭与化肥配施秸秆和籽粒干重分别提高4.4%和16.5%。因此,生物炭能有效改善灰潮土土壤理化性质,提高细菌和放线菌数量,且在一定程度上促进冬小麦产量的提高。 相似文献
20.
在典型砂姜黑土上的六年定位试验证明:每年亩施圈肥2500~5000kg,可显著提高土壤有机质含量,全氮和速效氮有所增加,速效磷含量增高;在各种磷酸盐形态中,铝磷酸盐含量明显增加。施用圈肥的处理,耕层土壤容重降低,有效水含量显著提高,土壤持水曲线与对照处理有明显差别。施用氮磷化肥和无肥对照区,土壤有机质含量没有明显下降,说明砂姜黑土的土壤有机质分解速度是缓慢的。单纯施用氮磷化肥,第一年小麦增产幅度较大,以后小麦产量逐年下降。同时施用圈肥和氮磷化肥,小麦产量逐年呈上升趋势。 相似文献