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1.
施肥对酸性菜园土壤莴笋硝酸盐和叶片养分形态的效应 总被引:3,自引:1,他引:3
通过田间试验研究了3种酸性菜园土壤(强酸性、酸性和微酸性土壤)不同氮磷钾配比及其与硝酸盐复合控制剂配施对莴笋产量、硝酸盐及叶片养分形态的影响。结果表明,莴笋产量以微酸性土>酸性土>强酸性土,酸性和强酸性土壤上配施硝酸盐复合控制剂可使莴笋显著增产(达6.2%~18.2%),而微酸性土壤则相反。HNK配施硝酸盐复合控制剂在3种土壤上分别降低莴笋茎和叶硝酸盐含量25.1%~76.3%和3.1%~27.7%(微酸性土除外),降低作用以茎>叶,以HNK+C2处理效果最好。莴笋叶片硝酸盐含量以酸性土壤>微酸性土壤>强酸性土壤,茎中硝酸盐以酸性土壤为最高。莴笋叶片氮、磷、钾形态分别以蛋白氮、非蛋白磷、非蛋白钾为主,HNK配施硝酸盐复合控制剂(HNK+C3除外)提高莴笋叶片蛋白氮占全氮、蛋白磷占全磷和蛋白钾占全钾的比例。莴笋叶片硝酸盐含量与全氮、蛋白氮、全磷、蛋白磷和蛋白钾含量呈极显著负相关。 相似文献
2.
选择重庆地区适宜栽种的莴笋品种,采用田间试验研究酸性和碱性土壤氮钾肥配施对莴笋产量和品质的影响,为重庆地区发展高产优质莴笋生产和合理利用土壤氮钾养分资源提供科学依据。结果表明:氮钾肥配施处理较N1K0处理(无钾)显著提高2种土壤莴笋产量,其中酸性土增产10.0%~18.1%,碱性土增产11.9%~19.6%,增产率均以碱性土酸性土。2种土壤上莴笋氮肥增产效应在K1(钾肥适量)时较高,钾肥增产效应在N1(氮肥适量)时较高;在N1K1处理(适氮适钾)基础上,N2K2处理(增施氮钾肥)对莴笋产量提高有明显负交互作用。2种土壤氮钾肥配施显著降低莴笋叶和茎硝酸盐含量,莴笋硝酸盐含量以酸性土碱性土,且以莴笋茎莴笋叶。氮钾肥配施对酸性土莴笋叶和茎维生素C含量的影响规律不明显,对碱性土莴笋叶和茎维生素C含量有提高作用,但差异不显著,2种土壤均以N2K1处理提高作用大;莴笋叶维生素C含量以碱性土酸性土,莴笋茎维生素C含量以酸性土碱性土。酸性土氮钾肥配施以N2K1处理显著提高莴笋叶片蔗糖和总糖含量,以及莴笋茎果糖、还原糖、蔗糖和总糖含量,大大提高莴笋的食用风味品质;碱性土壤氮钾肥配施以N2K1处理显著提高莴笋叶片葡萄糖、果糖、还原糖、蔗糖和总糖含量,N1K1处理显著提高莴笋茎葡萄糖、果糖、还原糖和总糖含量,改善莴笋风味和营养品质。氮钾肥配施各处理在酸性土以N2K1处理、碱性土以N1K2处理显著提高莴笋叶和茎各种必需氨基酸含量;酸性土N1K2处理显著提高莴笋叶甜味氨基酸、鲜味氨基酸和氨基酸总量,N2K1处理显著提高莴笋茎甜味氨基酸、鲜味氨基酸和氨基酸总量;碱性土氮钾肥配施以N1K2处理显著提高莴笋叶和莴笋茎甜味氨基酸、鲜味氨基酸和氨基酸总量,改善莴笋氨基酸品质性状。综合考虑莴笋产量和品质效应,高氮适钾处理(N2K1)为供试酸性土和碱性土适宜的氮钾肥配施组合。 相似文献
3.
通过田间小区试验研究了不同N、K肥料配比对酸性和碱性土壤上两个莴笋品种(科兴 3 号和双尖莴笋)产量及品质的影响.结果表明,不同土壤上施用不同N、K配比肥料对双尖莴笋和科兴 3 号的产量影响不同.在酸性土壤上,对照(N15K10)是适宜两种莴笋高产的最佳N、K肥配比处理.在碱性土壤上种植双尖莴笋时,可以考虑在对照基础上适当地降低N肥用量.在碱性土壤上两种莴笋的产量均高于酸性土壤.减N和增K处理有利于降低莴笋的硝酸盐含量.在酸性土壤上莴笋中的硝酸盐含量高于碱性土壤.莴笋采收后期茎的硝酸盐含量高于叶片.不同施肥处理对两种土壤上科兴3号和双尖莴笋营养品质的作用不一致.在酸性土壤上增施K肥或提高N肥的用量对莴笋营养品质的改善更有效果.莴笋的Vc含量以叶片>茎,且酸性土壤>碱性土壤.除双尖莴笋在增K处理(N15K15、N20K15)中茎的可溶性糖含量表现为酸性土<碱性土以外,其他处理莴笋茎叶中的可溶性糖均为酸性土>碱性土.不同处理莴笋的氨基酸含量均表现为茎>叶. 相似文献
4.
长期施肥对水稻土和紫色土钾素容量和强度关系的影响 总被引:3,自引:1,他引:2
采用钾素容量/强度(Q/I)法研究了长期不同施肥对水稻土和紫色土供钾状况的影响。结果表明:经过长期不同施肥影响,水稻土和紫色土的钾离子平衡活度比(AR0K)大小顺序均表现出:化肥有机肥配施(NPKM)>化肥NPK配施(NPK)>不施肥(CK)>化肥氮单施(N)和化肥氮磷配施(NP);土壤活性钾(KL)、非专性吸附钾(-ΔK0)和专性吸附钾(KX)大小顺序水稻土为NPKM>NPK>CK>N和NP,紫色土为NPKM>NPK和CK>N和NP。长期施肥对水稻土钾位缓冲容量(PBCK)影响不明显,施肥15a后紫色土PBCK大小顺序为:NP>N>CK>NPKM和NPK。水稻土的AR0K、KL和-ΔK0值均大于紫色土,而其PBCK(21.7~29.1)和K+与Ca2++Mg2+交换自由能(-ΔG)值(11.4~13.9kJmol-1)小于紫色土(PBCK值为48.2~125.8,-ΔG值为14.9~19.9kJmol-1)。长期单施N和施NP条件下,土壤AR0K、KL、-ΔK0和KX值降低,而PBCK和-ΔG值升高,土壤(尤其是紫色土)钾素耗竭程度加剧,施NPK和NPKM减缓了土壤钾素的耗竭。长期不同施肥下,紫色土钾素的耗竭程度均高于水稻土,前者年均钾肥或有机肥的施用量不足。 相似文献
5.
施氮和不同品种水稻对紫色水稻土钾素形态的影响 总被引:3,自引:1,他引:2
通过盆栽试验研究了施氮水平和不同品种水稻对四川盆地 3种典型紫色水稻土 5种钾形态的影响以及各种土壤钾形态对水稻钾素营养的贡献。结果表明 ,4个紫色水稻土供钾能力均属中下水平 ,全钾含量为 1.29%~2.62% ,其中矿物钾量平均占 96.82% ,速效钾和非交换性钾仅平均占 0.62%和 2.56% ,土壤供钾能力以中性紫色水稻土 石灰性紫色水稻土 酸性紫色水稻土。施氮 (N 0~ 150mg/kg)促进 4个紫色水稻土钾素的释放 ,提高水稻对非交换性钾和矿物钾的吸收利用 ,使矿物钾和非交换性钾的贡献占植株吸钾的 80.3% ,速效钾仅为 19.7%。中性紫色土供试 4个品种水稻的吸钾能力为开优 5号 汕优 63Ⅱ优 6078引佳 1号。施氮后4个品种水稻吸自非交换性钾和矿物钾量平均占植物吸钾量的 66.9% ,以施中氮 (N 150mg/kg)时植株吸钾量最高 ;而低氮或高氮水平都不利于植物对钾的吸收和土壤钾的释放 相似文献
6.
我国典型农田长期施肥小麦氮肥回收率的变化特征 总被引:6,自引:1,他引:5
为阐明长期不同施肥下小麦氮肥回收率的时间演变特征及空间差异,为农田氮肥合理施用及提高氮肥回收率提供科学依据,对我国典型农田土壤—塿土、潮土、褐土、灰漠土、黄棕壤、黑土、中性紫色土、石灰性紫色土和红壤上设置的15-24年的长期试验的氮肥回收率及相关数据进行统计分析。结果表明,长期单施氮肥(N)、氮钾配施(NK)下,小麦氮肥回收率随时间延长而显著降低,降低速率为红壤(7.24)>黄棕壤(4.16)>塿土(1.48)、中性紫色土(1.44)、潮土(1.06)>石灰性紫色土(0.60);化肥配合及与有机肥配施(NP、NPK、NPKM)的氮肥回收率在潮土、灰漠土、黄棕壤、黑土、中性紫色土上随时间变化不大。化肥配合施用(NPK)下,塿土、潮土、褐土、灰漠土、黄棕壤、黑土、中性紫色土、红壤和石灰性紫色土上的小麦氮肥回收率平均值分别为76.8%、73.4%、56.4%、44.9%、44.4%、33.8%、41.7%、33.6%、26.2%。小麦氮肥回收率以北方暖温带的塿土、潮土、褐土大于南方中亚热带紫色土和北方中温带的黑土。 相似文献
7.
以莴笋品种青美为指示品种,试验观察了控释氮肥与有机肥配施对高海拔夏季莴笋生长发育的影响。结果表明,在施P2O5 150 kg/hm2、K2O 210 kg/hm2的条件下,施氮配比为40%有机肥氮(N 108 kg/hm2)与60%控释尿素(N 162 kg/hm2)时,较单施普通尿素处理(施N 270 kg/hm2)株高增加5.50%,茎长增加13.39%,茎粗降低2.46%,单株重增加5.56%,折合产量增加5.67%;较单施控释尿素处理(施N 270 kg/hm2)株高增加3.14%,茎长增加10.39%,茎粗增加6.74%,单株重增加8.50%,折合产量增加8.55%。 相似文献
8.
长期定位施肥对无石灰性潮土0~100 cm土层NO-3-N动态变化的影响 总被引:2,自引:0,他引:2
在无石灰性潮土26年的定位试验进行过程中,在12个不同处理CK、N1、N2、M1、M1N1、M1N2、M2、M2N1、M2N2、NP2K、N2P和N2K中,于2003研究了长期定位施肥对非石灰性潮土0-100cm土层NO3^--N动态变化的影响,结果表明,长期单施有机肥及其配施无机氮肥,氮磷钾或氮磷以适当比例配施,可减少土体中NO3^--N的积累。单施氮肥以及氮钾配施的土壤剖面中NO3^--N积累增加,对土壤环境和地下水构成潜在污染。降水、灌溉、氮肥用量及作物吸收利用是影响土壤NO3^--N淋洗、积累的主要因素。 相似文献
9.
重庆市紫色土系统分类高级单元划分研究 总被引:5,自引:1,他引:4
依据中国土壤系统分类的原则和方法,对重庆市境内的41个紫色土典型剖面进行鉴别、检索和分类定名,并与其发生分类进行参比。结果表明,41个紫色土典型剖面分别被划归为4个土纲(人为土、淋溶土、雏形土和新成土)、6个亚纲、12个土类和19个亚类等系统分类高级单元,被划归为雏形土土纲的剖面最多,其次为新成土土纲,仅有9个剖面被划归为紫色湿润雏形土或紫色正常新成土;雏形土土纲和新成土土纲均分别对应紫色土发生分类的3个亚类(酸性紫色土、中性紫色土和石灰性紫色土),而淋溶土土纲则仅与酸性紫色土1个亚类相对应;地形、海拔、母岩和人为活动与紫色土的土壤水分状况、剖面发育、颜色以及其他理化性质等关系密切,是影响重庆市紫色土系统分类高级单元划分的重要因素;针对多数紫色土个体达不到紫色砂、页岩岩性特征的色调标准以及铁质湿润雏形土的下设亚类不能充分反映紫色土属性(如石灰性、酸性等)差异等问题,建议适当放宽紫色砂、页岩岩性特征的颜色要求或增设石灰铁质湿润雏形土和酸性铁质湿润雏形土2个亚类。 相似文献
10.
为揭示不同作物秸秆与污泥堆肥产物对土壤氮素矿化特征的影响,为科学施用城市污泥堆肥提供参考依据,通过室内培养试验研究了城市污泥与4种秸秆(小麦、水稻、玉米和油菜)高温好氧堆肥产物施入酸性紫色土、黄壤、石灰性紫色土后土壤氮矿化的差异。结果表明,4秸秆污泥堆肥均可显著提高3种土壤氮的潜在矿化势(N0)和矿化速度(k),促进土壤氮的矿化,提高土壤NH4+-N、NO3--N质量分数,其中石灰性紫色土以油菜秸秆污泥堆肥和小麦秸秆污泥堆肥处理、黄壤以油菜秸秆污泥堆肥处理、酸性紫色土以小麦秸秆污泥堆肥处理提高幅度最大。作物秸秆与污泥堆肥施入土壤后,黄壤、酸性紫色土在培养60 d和30 d后趋于稳定,石灰性紫色土在培养60 d后仍有增高的趋势,但不同秸秆污泥堆肥对土壤氮矿化速度的影响无明显规律。结果说明秸秆污泥堆肥对土壤氮矿化的效应因土壤及秸秆类型的不同而异,根据研究结果提出了4种作物秸秆与城市污泥堆肥施用的建议。 相似文献
11.
生物质炭施用可能对土壤中氮素硝化过程和N2O排放产生影响。本研究通过室内培养试验,研究铵态氮肥与玉米秸秆生物质炭施用量(0、1%、2%、5%、10%w/w)对酸性(pH=5.10)和石灰性紫色土(pH=8.15)氮素硝化率、净硝化速率及N2O排放特征的影响。结果表明:(1)酸性和石灰性紫色土生物质炭处理平均净硝化速率相比对照分别降低了33.7%~93.7%和7.5%~40.9%,生物质炭添加抑制了酸性和石灰性紫色土硝化作用,在酸性紫色土中生物质炭对氮素硝化作用的抑制作用随施用量的增加而增强,在石灰性紫色土中无明显规律。(2)与对照相比,酸性紫色土N2O累计排放量在1%生物质炭(1%BC)和2%生物质炭(2%BC)处理下降幅分别为15.9%和27.7%,在5%生物质炭(5%BC)和10%生物质炭(10%BC)处理下增幅分别为60.1%和93.2%。石灰性紫色土生物质炭各处理N2O累积排放量均显著高于对照。(3)综合考虑酸性紫色土1%、2%生物质炭量施用下对硝化作用抑制和N2O减排综合效果最好,在石灰性紫色土中无明显抑制和减排效果。 相似文献
12.
中国洞庭湖区稻田土壤氮素淋溶损失的系统研究 总被引:5,自引:0,他引:5
A two-year lysimeter study was conducted to study the effects of different fertilizers and soils on nitrogen leaching loss in a double rice cropping system by considering three major types of paddy soils from the Dongting Lake area. The results showed that N concentration in the leachate did not differ significantly among the treatments of urea, controlled release N fertilizer and pig manure and that all these fertilizers produced higher total nitrogen (TN) concentrations in the leachate compared to the case where no fertilizer was applied. The TN leaching loss following urea treatment accounted for 2.28%, 0.66%, and 1.50% of the amount of N applied in the alluvial sandy loamy paddy soil (ASL), purple calcareous clayey paddy soil (PCC), and reddish-yellow loamy paddy soil (RYL), respectively. Higher TN loss was found to be correlated with the increased leachate volume in ASL compared with RYL, and the lowest TN loss was observed in the PCC, in which the lowest leachate volume and TN concentration were observed. Organic N and NH4+ -N were the major forms of N depleted through leachate, accounting for 56.8% and 39.7% of TN losses, respectively. Accordingly, soil-specific fertilization regimens are recommended; in particular, the maximum amount of fertilizer should be optimized for sandy soils with a high infiltration rate. To avoid a high N leaching loss from rice fields, organic N fertilizers such as urea or coated urea should primarily be used for surface topdressing or shallow-layer application and not for deep-layer application. 相似文献
13.
Maize yield is mainly controlled by nitrogen (N) fertilizers. Failure to predict economic optimum N rate causes over-fertilization of N through traditional application methods. Five field trials were conducted to study soil-crop N relationships in maize under field conditions. Optimum level of N application in this study was much lower than conventional N fertilization in calcareous soils of southern Iran, demonstrating over-fertilization of N fertilizers by farmers. Linear regression equations were found between total nitrogen (TN) and chlorophyll meter readings (CMR) (years 2001 and 2002) in both locations demonstrating that chlorophyll meter might be used in predicting TN in maize shoot. Results indicated that soil sampling location influenced on soil NO3-N concentration at 4–6 leaf stage. In conclusion, N use efficiency can be improved by in-season soil NO3-N testing. It appears that in Kooshkak and Bajgah experimental stations, soil samples for NO3-N testing should be collected from shoulder and bottom of furrows, respectively. 相似文献
14.
Fouad H. Jaber Sanjay Shukla Peter J. Stoffella Thomas A. Obreza Edward A. Hanlon 《Compost science & utilization》2013,21(3):194-202
Experiments were conducted on calcareous and sandy soils to investigate the effects of organic amendments for vegetable production on groundwater nitrogen (N) concentration in south Florida. The treatments consisted of applying yard and food residuals compost, biosolids compost, a cocompost of the municipal solid waste and biosolids, and inorganic fertilizer. Nitrate nitrogen (NO3-N), ammonium nitrogen (NH4-N), and total N concentrations were collected for a period of two years for both soils. Statistical analysis results revealed that for the three species tested, there were no significant differences among treatments. NO3-N concentrations for all treatments remained less than the maximum contamination level (10 mg/L). NO3-N transport to groundwater was higher in calcareous soil (mean=5.3 mg/L) than in sandy soil (mean=0.6 mg/L). NH4-N concentrations ranged from 0 to 13.6 mg/L throughout the experiment. Calcareous soil had lower NH4-N concentrations (mean=0.1 mg/L) than sandy soils (mean=0.7 mg/L). Total N ranged from 0.4 to 21.7 mg/L for all treatments for both soils reflecting high adsorption of dissolved organic N in both soils. Overall, results indicated that all the compost treatments were comparable to inorganic fertilizer with regard to N leaching and N concentrations in the groundwater while producing similar or higher yields. 相似文献
15.
土壤高残留氮条件下施氮对夏玉米氮素平衡、利用及产量的影响 总被引:16,自引:4,他引:12
土壤残留氮是不容忽视的土壤氮素资源.通过田间小区试验研究了土壤高残留氮下不同施氮量(0、80、160、240和320 kg/hm2)对夏玉米土壤硝态氮积累、氮素平衡、氮素利用及产量的影响,分析了夏玉米的经济效益.结果表明,土壤剖面硝态氮积累量随施氮量的增加而增加,且施氮处理硝态氮积累量显著高于不施氮处理;各施氮处理土壤硝态氮在0-60 cm土层含量最高,在0--180 cm剖面呈先减少后增加的变化趋势.不施氮处理夏玉米收获后土壤无机氮残留量高达378 kg/hm2,随施氮量的增加,无机氮残留和氮表观损失显著增加.作物吸氮量、氮表观损失量与总氮输入量呈显著正相关,总氮输入量每增加l kg作物吸氮量增加0.156 kg,而表观损失量增加0.369 kg,是作物吸氮量的2.4倍.高残留氮土壤应严格控制氮肥用量,以免造成氮素资源的大量浪费.夏玉米籽粒吸氮量随施氮量的增加呈增加的趋势,氮收获指数呈降低的趋势.氮肥农学效率、氮肥生理利用率、氮肥利用率和氮素利用率在施氮量80 kg/hm2时最高,随施氮量的增加降低;增施氮肥能降低高残留氮土壤中氮肥的增产效果和利用率.综合考虑产量、氮素利用和环境效应,N 80 kg/hm2是氮素高残留土壤上玉米的合理施氮量. 相似文献
16.
水分状况与供氮水平对土壤可溶性氮素形态变化的影响 总被引:3,自引:0,他引:3
采用通气培养试验,研究比较了两种水稻土在不同水分和供氮水平下的矿质氮(TMN)和可溶性有机氮(SON)的变化特征。结果表明,加氮处理及淹水培养均显著提高青紫泥的NH4+-N含量;除加氮处理淹水培养第7 d外,潮土NH4+-N含量并未因加氮处理或淹水培养而明显升高。无论加氮与否,控水处理显著提高两种土壤的NO3--N含量,其中潮土始见于培养第7 d,青紫泥则始于培养后21 d;加氮处理可显著提高淹水培养潮土NO3--N含量,却未能提高淹水培养青紫泥NO3--N含量。两种土壤的SON含量从开始培养即逐步升高,至培养21~35 d达高峰期,随后急剧下降并回落至基础土样的水平;SON含量高峰期,潮土SON/TSN最高达80%以上,青紫泥也达60%。综上所述,潮土不仅在控水条件下具有很强硝化作用,在淹水条件下的硝化作用也不容忽视,因此氮肥在潮土中以硝态氮的形式流失的风险比青紫泥更值得关注;在SON含量高峰期,两种土壤的可溶性有机氮的流失风险也应予以重视。 相似文献
17.
18.
《Communications in Soil Science and Plant Analysis》2012,43(1-2):237-257
Abstract Chemical analysis of selected plant tissues as a nitrogen (N) fertility diagnostic technique has been established for many irrigated horticultural crops, but not for recently popular high value specialty vegetables such as leaf and romaine lettuce (Lactuca sativa L.). Three field experiments were conducted in southern Arizona during three years to determine the plant part and N form that is most responsive to soil N supply, and to formulate in‐season N status interpretations based upon appropriate tissue tests. Fertilizer N treatments were applied through subsurface drip irrigation tubing at scheduled intervals to leaf and romaine lettuce to provide N levels ranging from deficient to excessive. Plant samples, which included the midrib or leaf blade from the youngest full‐sized leaf and whole plant tissues were collected throughout the growing season with midribs tested for NO3‐N and the remaining tissues for total nitrogen content Marketable fresh weight yields were recorded at harvest for all N treatments in each experiment. In Experiment 1, it was determined that of the plant N testing methods evaluated, midrib NO3‐N concentration in the youngest mature leaf was the most responsive to differences in soil N supply. Experiments 2 and 3 focused on the midrib NO3‐N method of testing to develop season‐long interpretations for evaluating the N fertility status of both crops. The slow root and shoot development inherent in each lettuce type and the minimal uptake of N through mid‐season did not contribute to well‐defined differences between deficient, sufficient, and excessive midrib NO3‐N levels. Resulting interpretations of midrib NO3‐N concentrations for leaf and romaine lettuce feature a greater sensitivity and practicality as a N fertility diagnostic tool during the latter one‐half of the growing season. 相似文献
19.
丹江口库区土壤氮磷养分流失特征 总被引:2,自引:0,他引:2
[目的]研究丹江口库区土壤的水土流失和非点源污染物氮磷流失的特点,为农业非点源污染模型的建立提供理论依据。[方法]通过室内人工模拟降雨试验,研究了坡度和施肥等处理对产流产沙、氮磷养分(硝态氮、铵态氮、总氮、有效磷和总磷)流失特点的影响。[结果](1)随着坡度的增加,平均入渗率和初始产流时间呈减小趋势,而径流总量和泥沙总量呈增加趋势。(2)相同施肥处理下,随着坡度的增加,泥沙中硝态氮、总氮、有效磷和总磷的流失浓度呈减小趋势,铵态氮流失浓度在不施氮肥条件下呈减小趋势,而在施氮肥处理下呈增加趋势。(3)在相同坡度条件下,随降雨时间推移,总氮浓度呈先减小后趋于稳定的趋势;铵态氮浓度随施肥处理的变化均呈现出波浪形变化;在施氮肥时,径流中硝态氮的浓度随着时间的推移,呈逐渐减小并趋于平缓的趋势,而在不施氮肥时几乎无变化。[结论]在不同施肥措施和坡度条件下,硝态氮主要随径流而流失,为随泥沙流失的8~11倍;铵态氮主要是随径流泥沙而流失,为随径流流失的1~17倍;总氮则是随径流和径流泥沙共同流失;有效磷和总磷都是以泥沙结合态流失为主,分别为随径流流失的1 000~6 200和1~3倍。 相似文献