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101.
不同有机肥对矿区复垦土壤磷素矿化特征研究 总被引:2,自引:0,他引:2
【目的】探究不同有机肥对采煤塌陷复垦土壤磷素的矿化特征。【方法】采用室内培养试验,以不施肥处理为空白处理(CK),研究了施用3种有机肥(鸡粪、猪粪、牛粪)对矿区复垦土壤速效磷的动态变化,并综合其矿化过程中的磷酸酶活性及磷转化强度,分析了不同有机肥对矿区复垦土壤磷生物有效性的影响。【结果】①在整个室内恒温培养过程中,各施肥处理的速效磷量均随培养时间延长呈下降趋势,不同培养时期速效磷量大致呈现出:鸡粪>猪粪≥牛粪>化肥>CK。培养结束时(105d),鸡粪、猪粪和牛粪处理较化肥处理显著提高了土壤速效磷量(18.56%~37.09%);鸡粪处理较猪粪和牛粪处理速效磷量显著提高了11.93%~15.62%,而猪粪和牛粪处理间差异不显著;②在整个室内恒温培养过程中,拟二阶动力学模型能较好地反映各施肥处理速效磷释放过程,其次为Elovich模型和幂函数模型,而粒内扩散模型拟合效果较差。③在整个培养时期施有机肥处理的磷酸酶活性显著高于化肥处理,提高幅度为39.14%~120.70%。④培养前期(0~14 d),猪粪处理与化肥处理对土壤有机磷转化强度影响较大,二者间差异不显著,且猪粪处理较牛粪、鸡粪处理能显著提高有机磷转化强度,分别提高了41.51%和86.52%;在培养中后期(42~105d)各施肥处理的有机磷转化强度差异均不显著。【结论】施用有机肥能促进矿区复垦土壤磷素矿化,其中鸡粪较猪粪和牛粪对提高土壤有效磷量作用更为明显。 相似文献
102.
随着粮食增产的迫切需求和化肥工业的快速发展,我国种植业与养殖业养分物质循环断裂,推进种养结合成为实现农业绿色发展重要途径。但目前,我国从农户层面以及区域层面都存在着种植与养殖之间的纽带断裂,造成了农业资源利用的错位,也产生了资源环境双重压力。推进种养结合的堵点主要表现在养殖场责任尚未压实、有机肥施用不便利、堆肥质量标准缺失、社会化服务体系不完善等多方面。本文结合对国内和国际上推进种养结合的典型做法的分析,在强化提升国家粮食安全保障能力的大背景下,从优化种养布局规划、压实养殖主体责任、强化科技支撑、培育社会化服务组织等方面提出了当前构建全新的种养循环体系的建议。 相似文献
103.
长三角地区设施蔬菜施肥现状及土壤性状研究 总被引:8,自引:2,他引:6
针对近年来长三角地区设施菜地规模化程度逐渐加剧,对规模化和分散型种植方式开展调研,阐明不同种植方式下的施肥现状、土壤理化性状的变化情况。本文采用调查问卷和现场取样的调查方法,在以上海市松江区和苏州市支塘镇为代表的规模化种植区以及以宜兴市周铁镇、常州市武进区为代表的分散型种植区开展有机肥和化肥的施肥情况调查,并分析土壤pH、EC以及土壤碱解氮、有效磷、速效钾等速效养分含量。结果表明,规模化种植方式周年肥料施用总量比分散型种植低17.8%,其中有机肥比分散型种植低843.8 kg/ha,化肥比分散型种植高34.5 kg/ha;与分散型种植方式相比,规模化种植周年投入的氮肥(N)低了41.8%,而磷肥(P2O5)和钾肥(K2O)分别高了6.8%和38.3%。在土壤的理化性状上,规模化种植方式下的土壤酸化、盐渍化问题较分散型种植严重,土壤pH和电导率分别为5.2和490.7 μS/cm,土壤碱解氮、有效磷和速效钾平均含量为286.3 mg/kg、322.3 mg/kg和374.2 mg/kg,比分散型种植分别高了123.9%、26.4%和68.7%。鉴于此,规模化种植区应大力推广叶面肥和有机水溶肥水肥一体化等减施增效措施,可能有利于维持规模化种植下设施土壤的可持续利用。 相似文献
104.
氮肥减量后移对喷灌玉米产量和水氮利用效率的影响 总被引:1,自引:0,他引:1
【目的】优化井灌区田间水肥管理。【方法】试验于2018年6—9月在河南省许昌灌溉试验站进行,以当地主栽玉米品种登海3737(P1)和豫单9953(P2)为试验材料,设置3种施肥调控方式,分别为当地传统施肥模式CK(N、P2O5、K2O施量分别为315、75、75 kg/hm^2,全部基施),优化模式F1(N、P2O5、K2O施量分别为225、75、75kg/hm^2,40%三叶期和60%拔节期追肥),优化模式F2(N、P2O5、K2O施量分别为225、75、75kg/hm^2,30%三叶期、30%拔节期和40%大喇叭口期追肥),研究了喷灌水肥一体化下氮肥减量后移对不同品种夏玉米生长发育、产量和水分利用效率的影响。【结果】增加施肥频次和施肥时间后移可提高玉米叶面积系数(LAI)和延缓叶片衰老,增加玉米干物质累积量以及最大生长速率。喷灌水肥一体化(F1、F2处理均值)较传统施肥籽粒产量提高7.8%,耗水量降低11.9%,水分利用效率(WUE)提高22.2%,籽粒氮肥偏生产力(PFPY)提高51.1%,生物量氮肥偏生产力提高49.2%。登海3737干物质累积、最大生长速率、WUE和PFPY的均值较豫单9953分别增加2.8%、7.7%、8.5%和8.6%,最大生长速率出现的时间没有差异。豫单9953干物质积累快增期持续时间比登海3737增加5.3 d。不同品种之间产量和构成要素差异极显著。登海3737平均产量为11 319 kg/hm^2,较豫单9953增产8.4%,其中穗长、百粒质量对产量贡献较大,分别提高22.5%和18.2%。【结论】本研究中,F2处理为最佳施肥模式,即N、P2O5、K2O施量分别为225、75、75 kg/hm^2,施肥配比为30%三叶期、30%拔节期、40%大喇叭口期。 相似文献
105.
Ikabongo Mukumbuta 《Soil Science and Plant Nutrition》2020,66(1):76-83
ABSTRACT Conversion of grassland to cropland is widely reported to deplete soil organic carbon (SOC) largely due to tillage effects on the decomposition of SOC. However, most studies report on long-term changes in SOC following the conversion and little is known about the changes in the short term. Net ecosystem carbon budget (NECB) measures the difference between total C input (i.e., manure, above- and below-ground plant residues) and C loss through heterotrophic respiration (RH). However, most studies that report temporal SOC do not report other components of the NECB like RH, total C inputs and often do not include the cumulative annualized change of these components. This review evaluated the change in C input, RH, NECB and SOC after conversion of permanent/continuous grassland to cropland within 5 years after the conversion. We also reviewed and compared no-tillage and conventional tillage on SOC storage and accumulation. Total C input was higher in grassland than cropland largely due to high root biomass, as opposed to aboveground residue, and therefore grassland tended to have higher NECB. Despite higher NECB in grassland, the SOC stocks in cropland (cornfield) converted from grassland were greater than that in continuous grassland within first 2–3 years of conversion. The combination of manure C addition and tillage in cropland showed potential to maintain NECB and increase SOC. Within the continuous grassland C addition alone increased NECB but did not result in a corresponding increase in SOC. Residue retention and manure addition are recognized as good practices for increasing SOC, this study however, shows that combining them with occasional tillage, especially in managed grasslands, could increase the rate of SOC storage in soils. 相似文献
106.
为验证沃柑测土配方施肥的效果,推进化肥减量增效,探究有机肥、中微量元素肥料与化肥配施对沃柑果实产量和外观品质的效应,在沃柑园设置随机区组小区精确试验,试验处理包括当地习惯施肥、测土配方推荐施肥、优化施肥、优化施肥兼叶面喷施0.2%硼酸、优化施肥兼叶面喷施0.05%钼酸铵、优化施肥兼叶面喷施4%硫酸镁。结果表明,测土配方推荐施肥相较于习惯施肥增产效果显著。在同等养分施用量的情况下,用有机肥代替部分化肥处理与全化肥处理比较产量无显著差异,但前者比后者增效4.03%。在土壤交换性镁贫乏的情况下,沃柑叶面施镁可以获得极显著而稳定的增产效果。在土壤不缺硼的情况下,叶面施硼可能无效。在土壤有效钼不足时沃柑叶面施钼能够增产,但连年施用效果不稳定。由此可见,伴随果实外观品质的提升,化肥减量增效在沃柑生产上是可行的;沃柑施肥的增产潜力较大,如果配方和选材得当,可以发挥更大效益。 相似文献
107.
为研究microRNA-124-3p(miR-124-3p)对H1N1亚型猪流感病毒(swine influenza virus,SIV)感染小鼠所致肺损伤的调控作用,本试验构建miR-124-3p腺病毒表达载体,通过小鼠尾部静脉注射法构建miR-124-3p差异表达小鼠模型,试验分3组:过表达组、抑制组和对照组。48 h后,各组小鼠鼻腔接种H1N1亚型SIV,每只105 EID50(50 μL)。连续观察14 d,计算小鼠平均体重变化率、观察病理切片并测定相关炎症因子IL-1β、TNF-α和IL-6 mRNA相对表达量。结果显示,已成功将pre-miR序列及其sponge序列插入腺病毒的穿梭质粒,并将其共转染293A细胞。实时荧光定量PCR检测证实,与对照组相比,过表达组和抑制组小鼠黑色素瘤细胞miR-124-3p表达水平分别极显著升高(P<0.01)和显著降低(P<0.05),表明成功构建腺病毒表达载体。过表达组、抑制组和对照组小鼠体重变化率分别为-5.5%、-12.4%和-8.6%。抑制组和对照组均可见肺泡壁增厚,其间有多量淋巴细胞浸润,部分肺泡内出现纤维蛋白渗出,且抑制组病理变化更为严重,肺泡中还有大量的红细胞浸润;而过表达组仅有少量的淋巴细胞浸润,肺脏组织较正常。与对照组相比,过表达组检测的炎症因子IL-1β、TNF-α和IL-6 mRNA表达水平均显著降低(P<0.05);抑制组炎症相关炎症因子mRNA表达水平均显著升高(P<0.05)。本试验结果表明,miR-124-3p对H1N1亚型SIV感染小鼠所致的肺脏炎症因子的表达具有抑制作用,同时能减轻肺脏病理损伤。 相似文献
108.
109.
Soybean molasses as an organic carbon source in the farming of Litopenaeus vannamei (Boone, 1931) in a biofloc system 下载免费PDF全文
Carlos Manoel do Espírito Santo Isabela Claudiana Pinheiro Gabriel Fernandes Alves de Jesus José Luiz Pedreira Mouriño Felipe do Nascimento Vieira Walter Quadros Seiffert 《Aquaculture Research》2017,48(4):1827-1835
Soybean molasses was evaluated as a partial replacement for sugarcane molasses as a carbon source for biofloc development in the superintensive culture of Pacific white shrimp (Litopenaeus vannamei). A 50‐day study was conducted with juvenile (3.2 g) shrimp stocked in 16 800 L tanks at a stocking density of 250 shrimp m?3. Control of total ammonia concentration was performed by the addition of combined mixtures of soybean and sugarcane molasses to the culture water. Three different molasses treatments were evaluated using different soybean‐to‐sugarcane molasses ratios: 15–85%, 38–62% and 60–40% respectively. The control group was treated only with sugarcane molasses. Water quality, chlorophyll a concentration, heterotrophic bacterial load, Vibrio spp. concentration and zootechnical indexes were all evaluated. Total ammonia concentration was controlled by heterotrophic and chemotrophic pathways. Biofloc formation, as quantified by measuring the total suspended solids, was not altered. The Vibrio spp. concentration showed a significant reduction in treatments with soybean‐to‐sugarcane molasses ratios of 38–62% and 60–40%. All combined mixtures of soybean and sugarcane molasses could maintain water quality and productivity in the superintensive culture of L. vannamei using the biofloc system. Thus, the potential use of a residue from agroindustry as a carbon source in a biofloc culture is demonstrated. 相似文献
110.
A change in the European Union energy policy has markedly promoted the expansion of biogas production.Consequently,large amounts of nutrient-rich residues are being used as organic fertilizers.In this study,a pot experiment was conducted to simulate the high-risk situation of enhanced greenhouse gas (GHG) emissions following organic fertilizer application in energy maize cultivation.We hypothesized that cattle slurry application enhanced CO2 and N2O fluxes compared to biogas digestate because of the overall higher carbon (C) and nitrogen (N) input,and that higher levels of CO2 and N2O emissions could be expected by increasing soil organic C (SOC) and N contents.Biogas digestate and cattle slurry,at a rate of 150 kg NH4+-N ha-1,were incorporated into 3 soil types with low,medium,and high SOC contents (Cambisol,Mollic Gleysol,and Sapric Histosol,termed Clow,Cmedium,and Chigh,respectively).The GHG exchange (CO2,CH4,and N2O) was measured on 5 replicates over a period of 22 d using the closed chamber technique.The application of cattle slurry resulted in significantly higher CO2 and N2O fluxes compared to the application of biogas digestate.No differences were observed in CH4 exchange,which was close to zero for all treatments.Significantly higher CO2 emissions were observed in Chigh compared to the other two soil types,whereas the highest N2O emissions were observed in Cmedium.Thus,the results demonstrate the importance of soil type-adapted fertilization with respect to changing soil physical and environmental conditions. 相似文献