我国农业中的测土配方施肥

根据笔者的实践，阐述了目前我国正在进行的测土配方施肥行动的意义、测土配方施肥的主要工作内容、目前需要解决的科学问题等。同时介绍了目前在我国测土配方施肥中土壤养分化验的新方法等。     

我国农业中的测土配方施肥

根据笔者的实践,阐述了目前我国正在进行的测土配方施肥行动的意义、测土配方施肥的主要工作内容、目前需要解决的科学问题等。同时介绍了目前在我国测土配方施肥中土壤养分化验的新方法等。     

赣南华盛顿脐橙果实发育中几种矿质营养含量动态的研究

赣南红黄壤的土壤条件导致柑橘树体缺素现象比较普遍,而华盛顿脐橙缺素症状并不明显.本文以赣南华盛顿脐橙为试验材料,对其果实发育中果实不同部位(果皮和果肉)的B、Ca、K、Mg和叶片(越冬老叶和当年春梢叶)的B、Ca、K、Mg、Fe、Mn和Zn含量变化进行了对比测定.结果表明:果皮和果肉B含量均于果实膨大期出现显著上升高峰;而对应的Ca含量在幼果期至果实膨大初期相对较高,之后趋明显下降.老叶的B、Ca、Fe和Mn含量均相对稳定,对应春梢叶四者含量均于花后100 d(高温干旱期)出现大幅度下降,之后呈类似的变化趋势;而春梢叶的K、Mg和Zn含量并无此显著下降过程,且老叶的Mg和Zn含量均低于缺乏临界值.     

土壤测试实验室数据自动采集处理与推荐施肥系统

为了提高测土配方施肥中土壤测试的工作效率和测试数据采集、处理的准确性,针对土壤养分测试技术的工作流程,经过多年的研究与实践,应用计算机技术、数据库技术和网络技术,研制设计了土壤样品测试数据的自动采集、分析、入库和计算机自动对作物进行推荐施肥的分析控制系统。该系统已广泛应用于我国的测土配方施肥。     

Soil phosphorus testing for intensive vegetable cropping

Environmental concerns and rapidly decreasing phosphorus (P) resources caused a renewed interest in improving soil P tests for a more efficient P fertilization. This led to the development of better P fertilizer recommendation systems for major arable crops and grass. Nevertheless, these P fertilizer recommendation systems seem to fail for intensive vegetable crops, with often a very short growing season and limited rooting system. This leads to low P use efficiencies in the horticultural sector. In order to address this problem we set up a study to answer following questions: (1) which soil P test predicts the plant available P content for intensive vegetable crops the best and (2) can new insights, such as combining different soil P tests, improve P fertilizer recommendations for intensive vegetable crops? To this end, bulk samples of 41 soils with very different P status (based on ammonium lactate extractable P) were collected. The plant available P content of these soils was determined using six commonly used soil P tests (P‐CaCl₂, P‐water, P‐Olsen, P‐acetate, P‐lactate, and P‐oxalate) and a P fertilizer pot experiment with endive (a very P sensitive vegetable crop) was conducted. Six pots of each soil were planted with endive. Three of these pots received no P fertilization (0P) and three pots received ammonium polyphosphate equivalent to 24 kg P ha^?1 (24P). All other factors were kept constant. Relative crop yield of the 0P fertilized plants compared to the 24P fertilized plants was determined. Plotting these relative yields against the P status of the soil per soil P test allowed to fit a Mitscherlich curve through the data. Also the combination of two different soil P tests to predict the relative yield with a Mitscherlich equation was evaluated. The coefficients of variation of the soil P tests, the R² values and the relative standard errors of the parameter estimates revealed that P‐acetate and P‐water predicted the relative yield of the 0P plants the best and that combining two different soil P tests gave no extra predictive power. This finding may form the basis for the development of a new P fertilizer recommendation system for intensive vegetable crops, leading to an improved P use efficiency in horticulture. In order to develop this new system more data relating soil P test values with RY of intensive vegetable crops should be collected.     

有机复混磷肥对石灰性土壤无机磷形态组成及其变化的影响

实验室培养条件下,研究了有机复混磷肥对石灰性土壤无机磷组成变化的影响。结果表明: 1）单独施用有机物料对提高土壤速效磷含量的影响不大,但施用磷肥,无论是磷酸一铵化肥还是有机复混磷肥,均显著提高了土壤速效磷含量;施用有机复混磷肥提高土壤速效磷的幅度（67.5mg/kg～80.4mg/kg）高于施用磷酸一铵化肥处理（62.3mg/kg）;有机复混磷肥中有机物料的含量高低对土壤速效磷含量的影响不大。2）单独施用有机物料具有提高土壤Ca2-P含量的作用,且明显提高了Ca8-P含量,但对Al-P、Fe-P、O-P、Ca10-P含量影响不大;施用无机磷肥和有机复混磷肥,显著提高了土壤Ca2-P、Ca8-P、Al-P含量,而对Fe-P、O-P、Ca10-P含量的影响很小;与磷酸一铵化学磷肥处理相比,施用有机复混磷肥对Ca2-P含量影响较小,但明显提高了Ca8-P含量,Fe-P含量也表现增加的趋势,而Al-P含量明显降低,O-P和Ca10-P含量的变化则没有明显规律;有机复混磷肥中有机物料的比例高低对土壤无机磷组成变化的影响没有表现出明显的规律性。3）施用磷肥引起速效态Ca2-P和缓效态Ca8-P的变化最大,其它形态无机磷的变化相对较小。与磷酸一铵化肥处理相比,有机复混磷肥处理Ca8-P的变异提高幅度增加,而Al-P的变异提高幅度减小,其它指标库容的变异幅度与之相近。4）施磷处理土壤速效磷含量与土壤Ca2-P、Ca8-P含量呈线性正相关,相关系数分别达到0.9888、0.9867,而Al-P、 Fe-P、O-P、Ca10-P与土壤速效磷相关性不显著,磷肥施入土壤后,土壤无机磷库中Ca2-P、Ca8-P的变化对土壤速效磷含量的贡献最大。     

基于ASI法的滨海滩涂地水稻测土推荐磷、钾施用量的验证

运用土壤养分状况系统研究法(ASI)进行土壤测定和水稻肥料推荐,通过田间小区试验对滨海滩涂地水稻推荐磷、钾施用量进行验证。结果表明,在其它营养元素的施用量均在最佳推荐量条件下,ASI法测土推荐的磷(P2O5)、钾(K2O)最佳施用量(90 kg/hm2、105 kg/hm2)处理的水稻有效分蘖数、穗实粒数、千粒重及产量均是最佳的;且施磷能够显著增加水稻的有效分蘖数,施钾能够显著增加水稻穗粒数和千粒重,最终达到增产的目的。因此,运用ASI法对滨海滩涂地水稻进行测土推荐磷、钾肥的施用量是基本合理的。     

潮褐土上蔬菜产量和土壤各形态磷变化对长期过量施磷的响应

【目的】研究长期连续过量施用磷肥下蔬菜的产量响应、磷肥去向及土壤各形态磷库的动态变化。 【方法】在太行山山前平原典型潮褐土上,连续进行11年21茬露地蔬菜的长期定位肥料试验,P₂O₅年施用量设0 (P0)、360 (P1)、720 (P2)、1080 (P3)、1440 (P4) kg/hm2共5个处理,分别测定每茬蔬菜产量及各年土壤不同形态磷素含量。 【结果】与不施磷肥处理比较,单季P₂O₅用量180、360、540、720 kg/hm2均显著增加大白菜、菜豆产量,不同磷肥用量间蔬菜产量均无显著差异。P₂O₅年用量为360、720、1080、1440 kg/hm2,土壤年盈余磷为41.2～478.7 kg/hm2,积累率为26.2%～76.1%。与基础土比较,随着磷肥用量的增加,土壤有效磷、全磷、无机磷总量及无机磷中的Ca₂-P、Ca₈-P、Al-P、Fe-P含量均呈显著增加趋势,无机磷中的O-P、Ca₁₀-P含量无显著变化。P₂O₅年用量为720、1080、1440 kg/hm2处理土壤的有效磷年均增加量为2.3、4.2、5.0 mg/kg;土壤有效磷增加量与磷盈余量呈显著直线正相关关系,土壤磷素每盈余100 kg/hm2,有效磷、Ca₂-P、Ca₈-P、Al-P、Fe-P 含量分别增加1.13、2.41、15.27、4.14、1.37 mg/kg。随着土壤磷盈余量和施肥年限的增加,有效磷占全磷比重、Ca₂-P、Ca₈-P、Al-P占无机磷比重逐渐增加。 【结论】施用磷肥显著增加大白菜和菜豆产量,过量施用磷肥蔬菜产量无显著变化;土壤磷素处于盈余状态下,随着磷肥用量的增加或种植年限的增加,土壤积累磷的有效性随之增加。基于蔬菜对磷肥产量响应和土壤磷素收支表观平衡状况,露地大白菜P₂O₅推荐用量180 kg/hm2,菜豆270 kg/hm2。     

磷肥减施对玉米根系生长及根际土壤磷组分的影响

【目的】 我国农业过量和不合理施用磷肥现象普遍存在,导致磷资源的浪费,对环境也造成潜在威胁。研究减少磷肥用量对玉米产量、根系形态及根际中磷转化特征的影响,为集约化农业生产体系中磷肥合理施用提供技术基础。 【方法】 在河北省衡水小麦玉米轮作体系下连续三年进行了田间试验,在冬小麦季设置4个P₂O₅用量处理:0、112.5、150.0、187.5 kg/hm2,收获后在原处理小区免耕播种夏玉米。利用WinRHIZO根系分析系统分析获取根长、直径等数据,测定玉米籽粒产量、生物量和地上部磷含量及根际土壤中磷形态等指标。 【结果】 与农民习惯磷肥用量(P₂O₅187.5 kg/hm2)相比,3年磷肥用量减施20%~40%处理(P₂O₅150和112.5 kg/hm2),玉米籽粒产量、根系长度与直径和土壤有效磷含量尚未发生明显变化。但3年不施磷处理,根际土壤有效形态磷含量和玉米籽粒产量开始出现下降趋势。2009年和2010年玉米收获期,不施磷肥处理根际土壤有机磷含量低于非根际土壤。2008年玉米苗期和收获期土壤有机磷分组中,中等活性有机磷含量最高;磷肥减施20%~40%处理苗期根际中中等活性有机磷含量显著低于非根际土壤。土壤无机磷形态分组研究发现:从玉米苗期到收获期,各磷肥处理根际和非根际土壤中Ca₂-P下降明显;而不同磷肥处理间土壤中Ca₁₀-P、Ca₈-P、O-P (闭蓄态磷)、Al-P和Fe-P含量差异不显著。减施磷肥处理2008年玉米苗期根际土壤微生物量P含量较非根际土壤高;与习惯施肥量相比,磷肥减施未明显降低根际土壤微生物量磷。 【结论】 在华北小麦玉米轮作种植体系下,在土壤肥力水平较高地区,连续3年将小麦季磷肥的习惯用量减少20%~40%,对夏玉米产量、根系形态以及根际土壤无机磷、有机磷、微生物量磷含量影响尚不明显,因此,该地区磷肥施用量可从习惯用量的P₂O₅180 kg/hm2减至112.5 kg/hm2。     

长期不同施肥下潮土磷素演变特征及其对磷盈亏的响应

以"国家潮土土壤肥力与肥料效益长期监测站"的定位试验为平台,选取试验中的5个处理,即1)NK(不施磷肥);2)NPK(施氮磷钾化肥);3)MNPK(NPK化肥+有机肥);4)1.SMNPK(MNPK处理施肥量的1.5倍);5)SNPK(NPK化肥+秸秆还田),分析不同施肥下土壤全磷(TP)和有效磷(Olsen-P)的演...     

太行山山前平原冬小麦-夏玉米推荐施肥指标的修正

采用3种肥料效应模型,分析模拟了太行山山前平原高产区冬小麦-夏玉米轮作制度下的施肥量与作物产量之间的效应关系。结果表明,采用线型＋平台模型拟合,冬小麦和夏玉米生育期的最佳施氮量分别为91 kg/hm^2和39.7 kg/hm^2,在保证作物产量不减的情况下,比当地农民采用的传统二次型施肥模型的施氮量分别减少59%和79.7%。华北平原高产区长期过量施用氮肥,造成土壤中有不同程度的硝态氮积累,故施用基肥时,应特别注重测定田间土壤根层（0～60 cm）的硝态氮含量。通过养分平衡长期定位试验表明,该区磷肥合理施用量为P2O575 kg/hm^2。实行冬小麦秸秆还田情况下,冬小麦季宜施用钾肥K2O 45 kg/hm^2,夏玉米季可以不施钾肥。依据该文推荐的施肥指标可使冬小麦季节省肥料投资407.4元/hm^2,玉米季节省肥料投资503.8元/hm^2,两季作物的施肥利润均显著提高。为中国华北平原粮食高产区合理施用化肥、减少资源浪费、提高经济和生态效益提供了参考依据。     

娄土区作物和土壤淋溶磷临界值研究及推荐施磷建议

确定临界土壤磷最佳水平及合理的施肥量可为实现作物高产和减少磷素损失提供理论依据。本研究以“国家黄土肥力与肥料效益监测基地”24年长期肥料定位试验为基础,利用长期试验积累数据并结合相关土壤分析,通过米切里西指数模型和两段式线性模型确定了土区冬小麦和夏玉米高产土壤有效磷临界值以及土磷素淋溶阈值并提出了施磷建议。结果表明,该地区冬小麦高产时土壤有效磷临界值为26.2 mg/kg,夏玉米为13.9 mg/kg。土壤有效磷随全磷的增加存在明显的临界点,当全磷含量为1.15 g/kg时,有效磷含量为34.8 mg/kg,高于此值后有效磷随全磷快速增加。土壤有效磷含量大于39.3 mg/kg时,磷素淋溶风险增大。无轮作情况下,当土壤有效磷含量分别为＜25、25～40和＞40 mg/kg时,冬小麦施磷量分别为P2O5 80～95、60～80和10～15 kg/hm2;当土壤有效磷＜15、15～40和＞40 mg/kg时,夏玉米施磷量分别为P2O5 70～85、55～70和10～15 kg/hm2。冬小麦-夏玉米轮作体系下,当土壤有效磷含量分别为＜15、15～25、25～40和＞40 mg/kg时,冬小麦施磷量分别为P2O5 100～120、90～100、80～90和15～20 kg/hm2,夏玉米施磷量分别为P2O5 50～60、45～50、25～40和5～10 kg/hm2。     

推荐氮肥适宜施用量的方法论刍议

本文对推荐氮肥施用量的两种技术路线进行了讨论。根据80年代和20032～004年在太湖地区进行的氮肥施用量试验网的水稻和小麦田间试验结果,对区域平均适宜施氮量法的产量效益、经济效益和环境效益进行了初步评价,提出了以区域平均适宜施氮量作为宏观控制的基础,结合田块具体情况进行微调的推荐路线。     

中国若干区域玉米土壤有效磷丰缺指标与适宜施磷量

本文对自20世纪80年代以来我国开展的玉米土壤有效磷丰缺指标与适宜施磷量研究进行了系统总结。结果表明,30年来我国玉米土壤有效磷丰缺指标出现了明显提高;不同区域玉米土壤有效磷丰缺指标差异很大,缺磷处理相对产量90%的土壤Olsen-P含量指标变动于10~47 mg/kg之间;我国玉米土壤有效磷丰缺指标研究存在许多空白区域;我国玉米土壤缺磷较为普遍,有效磷丰缺级别集中于第2~4级,缺磷处理相对产量大多介于70%~100%之间;土壤养分丰缺指标研究的试验点数不宜过少,各试验点土壤养分含量分布不宜过于集中,丰缺指标高端和低端采用外推数据需谨慎,并应予以注明;适宜施磷量与土壤有效磷丰缺级别线性负相关,与目标产量线性正相关,与肥料当季利用率线性负相关;当磷肥当季利用率为20%、目标产量为10.5 t/hm~2时,玉米土壤有效磷丰缺级别第1~7级的适宜施磷量分别为0、42、84、126、168、210和252 kg/hm~2。     

固体磷肥和液体磷肥对石灰性土壤不同形态无机磷及磷肥肥效影响的研究

土壤磷固定是影响石灰性磷肥肥效的主要原因。本文在田间滴灌条件下采用连续浸提的方法对液体磷肥和固体颗粒磷肥及其不同施用方法对石灰性土壤各形态无机磷含量动态变化的影响进行了研究,并比较了不同处理下加工番茄磷素营养效应。结果表明:各施肥处理0—20 cm土层Ca2-P和Ca8-P含量随施肥时间明显下降,而Ca10-P含量则显著上升,表明磷肥在石灰性土壤中不断向Ca10-P转化并被固定。液体磷肥追肥处理0—20 cm土层Ca2-P含量在各时期均显著高于其他施肥处理(P＜0.05),且液体磷肥追肥可以明显保持土壤0—20 cm土层较高的Ca8-P含量。与其他施肥处理相比,液体磷肥追施可减少石灰性土壤对磷的固定,增加0—20 cm土层Ca2-P和Ca8-P含量(P＜0.05),显著提高土壤磷的有效性。液体磷肥追施处理可显著提高加工番茄叶片含磷量和经济产量(91725 kg/hm2)。与传统过磷酸钙颗粒磷肥作基肥处理（CK1）相比,液体肥料全做追肥可使加工番茄经济产量提高26.7%,并明显提高了磷肥利用率。在滴灌条件下石灰性土壤上液体磷肥分次追施比传统的固体颗粒磷肥基施具有明显的优势,是一种非常具有应用前景的施肥方式。     

长期定位施肥对碱性紫色土磷素迁移与累积的影响

在25年稻麦轮作长期定位施肥试验点上,开展了碱性紫色土水旱轮作种植制不同施肥处理土壤剖面全磷、速效磷迁移和累积以及耕层土壤全磷、速效磷随时间的变化规律研究。结果表明,单施无机磷肥土壤磷可迁移至100 cm土层,Olsen-P可迁移至40 cm土层。有机无机磷肥配施不但使土壤磷可迁移至相同深度,且迁移量更大,Olsen-P可迁移至60 cm土层。耕作25年后,施磷处理土壤耕层磷素随时间的变化显著,MNPK处理耕层土壤全磷含量年增长率为0.033 g/kg,Olsen-P的年增长率为2.56 mg/kg。试验表明,连续数年施用足量磷肥后,作物施磷量可根据具体情况酌减,以节约磷肥资源和提高磷肥利用率;施用有机肥促进了磷素从耕层向底层的迁移,是造成土壤磷素迁移的一个重要因素。     

Biochar derived from dairy cattle carcasses as an alternative source of phosphorus and amendment for soil acidity

Two pot experiments were conducted to evaluate biochar derived from dead dairy cattle as a mineral fertilizer, especially phosphorus (P) fertilizer, and to clarify the effect of particle size of biochar on plant growth (Zea mays L.) and P uptake. To produce the biochar, body parts of dead cattle were placed in a charring chamber and allowed to char at 450°C for 4 h. The biochar was of high pH and rich in major plant nutrients, especially P. Application of fine biochar (< 1 mm) increased P uptake by the corn plants grown in soil of low available P status. As a result, plant growth was improved following biochar application and dry matter production was also increased. The effect of the biochar application on the P uptake and plant growth was promoted by the application of mineral nitrogen (N) fertilizer. Soil analysis after harvest indicated that the biochar application increased soil pH, available P and exchangeable calcium (Ca) and magnesium (Mg) compared with the soil before seeding, while soil available N and exchangeable potassium (K) were considerably decreased. The decrease in the soil available N was incomprehensible, because the result of the mass balance given by the difference between input as the applied N from the biochar and fertilizer N and output as the N uptake by the plants was positive. We observed a similar result in the mass balance of K to the case of N. The medium (2–4 mm) and coarse (> 4 mm) grade biochar did not significantly affect plant growth, because P uptake was not, or was only slightly, increased by the application of these biochars. Dissolution of P from the coarser biochars was probably slower than that of the fine biochar. The lower dissolution of P from the medium and coarse biochars was supported by the lower P absorption efficiency of these biochars compared with that of the fine biochar and superphosphate. The effect of fine biochar on plant growth and P uptake was similar to that of superphosphate. We can therefore conclude that fine biochar derived from cattle carcasses is an effective source of P fertilizer and amendment for soil acidity. The N and K contents in the biochar, although relatively high, cannot be relied upon as a mineral fertilizer. Further studies are needed to assess whether the N and K contents of the biochar indicate it can be regarded as a useful fertilizer.     

用土壤全氮与有机质建立油菜测土施氮指标体系的研究

本文在汇总近年来浙江省多点油菜氮肥效应试验、氮肥用量试验的基础上,比较氮肥效应、经济施氮量与土壤全氮、土壤有机质之间的回归函数模型,筛选建立油菜测土施氮指标体系的可靠测定指标。回归分析结果表明,土壤有机质、土壤全氮与缺氮处理相对产量回归指数函数分别为Y=20.157e0.4413X（R2=0.5887**）和Y=10.882e0.045X（R2=0.3365**）,土壤有机质、土壤全氮与油菜经济施氮量对数函数分别为Y=-314.25LnX +1392.9（R2=0.6896**）和Y=-191.77LnX+427.81（R2=0.314**）。比较曲线函数的回归决定系数R2,土壤有机质与缺氮处理相对产量、经济施氮量的回归决定系数大于预测精度要求,可成为油菜种植田土壤供氮能力丰缺和推荐经济施氮量的指标,而全氮由于回归决定系数R2低于0.35,不适合成为土壤供氮能力和推荐经济施氮量的指标。通过回归方程划定不同土壤供氮水平下土壤有机质含量范围和相对应的推荐经济施氮量,构建浙江省油菜测土施氮指标体系。     

Long-Term Trends of Nitrogen and Phosphorus Use and Soil pH Change in Northern Idaho and Eastern Washington

Extension educates growers about using best management practices (BMPs) for nutrient management. However, it is important to understand grower management trends to prepare the best possible educational programs for growers. Three mail-based grower surveys conducted in 1981, 1996, and 2011 were used to document changing nitrogen (N) and phosphorus (P) fertilizer use and soil pH trends in the >450-mm precipitation zone of northern Idaho and eastern Washington, USA. The information collected in this paper spans a 40-year period. Nitrogen application rates have slightly increased, while P application rates on cereal crops have remained constant over the past 40 years. Average soil pH values have declined significantly over this time period; however, only about half of the surveyed growers were aware of this. This study is valuable because it (1) contains important information provided by growers on fertilization trends for the past 40 years (1971 to 2011), (2) quantifies the awareness of growers about soil pH decline in the region, and (3) provides baseline information, which can be used both in educational programming and to compare with future nutrient management.     

Predicting environmental soil phosphorus limits for dissolved reactive phosphorus loss

The dependence of runoff dissolved reactive phosphorus (DRP) loss on soil test P or rapid estimations of degree of P saturation (DPS) often varies with soil types. It is not clear whether the soil‐specific nature of runoff DRP versus DPS is due to the different sorption characteristics of individual soils or the inability of these rapid DPS estimates to accurately reflect the actual soil P saturation status. This study aimed to assess environmental measures of soil P that could serve as reliable predictors of runoff DRP concentration by using soils collected from Ontario, Canada, that cover a range of chemical and physical properties. A P sorption study was conducted using the Langmuir equation  to describe amount of P sorbed or desorbed by the soil (Q_s, mg/kg) versus equilibrium P concentration (C, mg/L) in solution, where Q_max is P sorption maximum (mg/kg), k represents P sorption strength (L/mg), and Q₀ (mg/kg) is the P sorbed to soil prior to analysis. Runoff DRP concentration increased linearly with increasing DPS_sorp (i.e. the ratio of (Q₀ + Q_D)/Q_max) following a common slope value amongst soil types, while the P buffering capacity (PBC₀) at C = C₀ yielded a common change point, below which runoff DRP concentration decreased greatly with increasing PBC₀ compared to that above the change point, where C₀ and Q_D represent the equilibrium P concentration and amount of P desorbed, respectively. Both DPS_sorp and PBC₀ showed great promises as indicators of runoff DRP concentration.