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1.
Abstract. Anecdotal and circumstantial evidence have suggested that the Olsen test underestimates plant-available phosphorus (P) in basaltic soils in Northern Ireland. Therefore, the ability of this test to predict plant-available P in basaltic (and non-basaltic) soils was investigated by regressing Olsen-P data against herbage P indices calculated from plant tissue test data using the diagnosis and recommendation integrated system. The average Olsen-P concentration for a range of fields situated on basaltic soils was considerably lower than the average Olsen-P concentration for a range of fields situated on non-basaltic soils, and yet mean sward P status, as given by the herbage P indices, was similar for both groups of fields. Herbage P indices were also much better correlated with Olsen-P measurements in non-basaltic soils than in basaltic soils. Furthermore, at low Olsen-P values (≶9mgPL−1 ) some swards on basaltic soils were genuinely deficient in P, while others were sufficient or even in surplus for this nutrient. The results confirm that Olsen-P is inadequate as a predictor of plant-available P in basaltic soils. It is concluded that an alternative soil test is needed to provide a reliable assessment of plant-available P in basaltic soils, to prevent overuse of fertilizer and manure P and to minimize the amounts of P entering local watercourses. 相似文献
2.
利用沈阳农业大学长期定位试验站裸地和覆膜的不同施肥处理(不施肥、单施氮肥、有机肥、有机无机肥配施)及其附近不同土地利用方式,探讨了不同施肥处理和覆膜对整个生长季的棕壤Olsen-P剖面(0—100 cm)分布及动态变化的影响。结果表明,耕地棕壤各施肥处理土壤剖面Olsen-P含量均表现为0—20 cm和60—100 cm大于20—60 cm;而自然草地、自然林地棕壤Olsen-P含量则随深度加深(0—100 cm)而逐渐增多。施用有机肥或有机无机肥配施处理的Olsen-P含量在60 cm土层以上均远大于不施肥或单施氮肥处理;覆膜后不施肥、有机肥、有机无机肥配施处理土壤0—40 cm土层的Olsen-P含量略有降低(0—20 cm土层有机肥处理除外),但差异未达到显著水平。说明施有机肥或有机无机肥配施,是补充土壤Olsen-P的有效措施;但施肥时应深施以补充表层以下土壤Olsen-P含量。覆膜未对本研究的棕壤Olsen-P含量产生显著的负面影响。 相似文献
3.
Wei-wei ZHANG Xiao-ying ZHAN Shu-xiang ZHANG Khalid Hamdan Mohamed Ibrahima Ming-gang XU 《农业科学学报》2019,18(3):667-676
The concentration of soil Olsen-P is rapidly increasing in many parts of China, where P budget(P input minus P output) is the main factor influencing soil Olsen-P. Understanding the relationship between soil Olsen-P and P budget is useful in estimating soil Olsen-P content and conducting P management strategies. To address this, a long-term experiment(1991–2011) was performed on a fluvo-aquic soil in Beijing, China, where seven fertilization treatments were used to study the response of soil Olsen-P to P budget. The results showed that the relationship between the decrease in soil Olsen-P and P deficit could be simulated by a simple linear model. In treatments without P fertilization(CK, N, and NK), soil Olsen-P decreased by 2.4, 1.9, and 1.4 mg kg~(–1) for every 100 kg ha~(–1) of P deficit, respectively. Under conditions of P addition, the relationship between the increase in soil Olsen-P and P surplus could be divided into two stages. When P surplus was lower than the range of 729–884 kg ha~(–1), soil Olsen-P fluctuated over the course of the experimental period with chemical fertilizers(NP and NPK), and increased by 5.0 and 2.0 mg kg~(–1), respectively, when treated with chemical fertilizers combined with manure(NPKM and 1.5 NPKM) for every 100 kg ha~(–1) of P surplus. When P surplus was higher than the range of 729–884 kg ha~(–1), soil Olsen-P increased by 49.0 and 37.0 mg kg~(–1) in NPKM and 1.5 NPKM treatments, respectively, for every 100 kg ha~(–1) P surplus. The relationship between the increase in soil Olsen-P and P surplus could be simulated by two-segment linear models. The cumulative P budget at the turning point was defined as the "storage threshold" of a fluvo-aquic soil in Beijing, and the storage thresholds under NPKM and 1.5 NPKM were 729 and 884 kg ha~(–1)P for more adsorption sites. According to the critical soil P values(CPVs) and the relationship between soil Olsen-P and P budget, the quantity of P fertilizers for winter wheat could be increased and that of summer maize could be decreased based on the results of treatments in chemical fertilization. Additionally, when chemical fertilizers are combined with manures(NPKM and 1.5 NPKM), it could take approximately 9–11 years for soil Olsen-P to decrease to the critical soil P values of crops grown in the absence of P fertilizer. 相似文献
4.
长期不施肥条件下几种典型土壤全磷和Olsen-P的变化 总被引:8,自引:3,他引:5
研究了11个不同气候条件、不同耕作制度、典型土壤类型长期定位试验不施肥处理土壤全磷和Olsen-P变化及其影响因素。结果表明,在长期不施肥条件下耕作,土壤Olsen-P含量下降比全磷的明显;在试验进行5年左右,土壤全磷含量都有所降低,以后各点表现不尽相同,新疆灰漠土、长沙水稻土和郑州潮土全磷含量随时间延长呈显著直线下降,其它试验点全磷的变化不明显;作物携出磷与土壤全磷下降之间,无论绝对含量或相对含量都不成比例。土壤Olsen磷下降率比全磷高几倍。Olsen-P下降趋势与起始土壤Olsen磷含量有关:起始土壤Olsen-P磷大于20 mg/kg时,25年内一直呈现明显下降趋势,降低40.5 mg/kg,特别是前5年下降更快,降低30 mg/kg;起始土壤Olsen-P为10~20 mg/kg时,下降趋势比前者缓慢,15年内一直呈明显下降趋势,下降19 mg/kg, 前5年下降15 mg/kg,15年后几乎不变;起始土壤Olsen-P小于10 mg/kg时,25年内无明显变化。Olsen-P下降量与起始Olsen-P占全磷的比例成显著直线关系。 相似文献
5.
【目的】 系统分析连续11年增量施磷下赤红壤蔗地土壤全磷、Olsen-P以及地表径流磷流失量的变化特征和土壤磷素变化与磷盈亏、蔗茎产量的响应关系,为土壤磷素科学管理提供参考。【方法】 依托长期肥力及地表径流定位监测试验(2008年—),选取不施肥(CK)、推荐施肥(OPT)和增量施磷(OPT+P)3个处理,测定土壤全磷、Olsen-P含量及地表径流磷流失量,分析土壤磷素变化与磷累积盈亏量的关系,采用Mitscherlich模型拟合蔗茎产量对Olsen-P的响应曲线,计算土壤Olsen-P农学阈值,并推算施肥处理土壤Olsen-P含量从第11年降至环境阈值所需的时间。【结果】 CK处理逐年降低土壤全磷含量,年降速率为0.0251 g·kg -1·a -1。施肥土壤全磷和Olsen-P含量随种植年限波动增加,土壤全磷和Olsen-P增速率OPT+P处理高于OPT处理。不施肥土壤表观磷盈亏10.2 kg·hm -2·a -1,施肥处理土壤表观磷盈余41.3—69.2 kg·hm -2·a -1,占施磷量的31.9%—35.6%,以OPT+P处理显著高于OPT处理67.5%。施肥下赤红壤蔗区土壤全磷和Olsen-P变化量均与土壤累积磷盈亏量呈显著正相关关系(P<0.01),土壤每累积盈余100 kg P·hm -2,OPT处理和OPT+P处理土壤全磷上升0.06 g·kg -1和0.09 g·kg -1,Olsen-P 含量上升11.0 mg·kg -1和9.1 mg·kg -1。土壤每累积亏缺100 kg P·hm -2,CK处理土壤全磷下降0.32 g·kg -1。Mitscherlich模型较好地拟合蔗茎产量与赤红壤Olsen-P含量的响应关系(P<0.01)。其计算出的土壤Olsen-P 农学阈值为12.1 mg·kg -1。施肥显著提高地表径流磷流失量,且OPT+P处理也显著高于OPT处理。地表径流磷流失量与土壤Olsen-P含量显著正相关。基于土壤磷素变化与累积磷盈亏的关系推算得出第11年OPT和OPT+P处理Olsen-P水平降至环境阈值的时间分别需要12年和16年。 【结论】 在南方赤红壤区,施肥尤其增量施磷在提高土壤磷素累积的同时增加了地表径流磷流失风险。在本试验磷的基础养分条件下,按OPT处理施磷,并从甘蔗种植的第2—3年实行隔年施磷可维持土壤磷素处于农学阈值与环境阈值之间。 相似文献
6.
Interactions between phosphorus availability and microbes in a wheat–maize double cropping system: A reduced fertilization scheme 
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下载免费PDF全文 YU Xiao-jing CHEN Qi SHI Wen-cong GAO Zheng SUN Xiao DONG Jing-jing LI Juan WANG Heng-tao GAO Jian-guo LIU Zhi-guang ZHANG Min 《农业科学学报》2022,21(3):840-854
Mechanisms controlling phosphorus (P) availability and the roles of microorganisms in the efficient utilization of soil P in the wheat–maize double cropping system are poorly understood. In the present study, we conducted a pot experiment for four consecutive wheat–maize seasons (2016–2018) using calcareous soils with high (30.36 mg kg–1) and low (9.78 mg kg–1) initial Olsen-P content to evaluate the effects of conventional P fertilizer application to both wheat and maize (Pwm) along with a reduced P fertilizer application only to wheat (Pw). The microbial community structure along with soil P availability parameters and crop yield were determined. The results showed that the Pw treatment reduces the annual P input by 33.3% without affecting the total yield for at least two consecutive years as compared with the Pwm treatment in the high Olsen-P soil. Soil water-soluble P concentrations in the Pw treatment were similar to those in the Pwm treatment at the 12-leaf collar stage when maize requires the most P. Furthermore, the soil P content significantly affected soil microbial communities, especially fungal communities. Meanwhile, the relative abundances of Proteobacteria and alkaline phosphatase (ALP) activity of Pw were significantly higher (by 11.4 and 13.3%) than those of Pwm in soil with high Olsen-P. The microfloral contribution to yield was greater than that of soil P content in soil with high Olsen-P. Relative abundances of Bacillus and Rhizobium were enriched in the Pw treatment compared with the Pwm treatment. Bacillus showed a significant positive correlation with acid phosphatase (ACP) activity, and Rhizobium displayed significant positive correlations with ACP and ALP in soil with high Olsen-P, which may enhance P availability. Our findings suggested that the application of P fertilization only to wheat is practical in high P soils to ensure optimal production in the wheat and maize double cropping system and that the soil P availability and microbial community may collaborate to maintain optimal yield in a wheat–maize double cropping system. 相似文献
7.
【目的】利用土著丛枝菌根真菌(arbuscular mycorrhizal fungi,AM真菌)与作物形成互惠互利的共生关系提高作物对土壤磷的利用效率是解决农业生产中磷供需矛盾的主要途径之一,本研究在大田玉米不同种植密度条件下,研究AM真菌对玉米根系的侵染及磷吸收作用,为揭示集约化玉米高效获取磷的机理提供理论依据。【方法】以大田作物玉米的两种种植密度(5104 plants/hm2和9104 plants/hm2)体系为研究对象,在田间原位埋设PVC管装置,通过测定菌丝生长室中的菌丝密度和有效磷耗竭来确定不同种植密度体系条件下AM真菌对玉米磷吸收的作用。【结果】相对于低密度种植群体,高密度群体显著降低了玉米拔节期土壤有效磷的耗竭量,同时增加了玉米地上部的磷含量,即磷吸收效率,增幅达20%; 在玉米拔节期,增加种植密度使根际的根外菌丝生物量(菌丝密度)降低了4%,而非根际土壤中的根外菌丝生物量(菌丝密度)增加了37%; 高密度玉米种植密度群体中AM真菌的根外菌丝对土壤有效磷耗竭的贡献增加了22%。【结论】集约化玉米生产中土著AM真菌依然帮助植株从土壤中吸收有效磷; 高密度体系下玉米对磷的吸收更加依赖于AM真菌。高密度种植增加AM真菌对玉米的侵染、 根外菌丝量和对土壤有效磷的吸收。 相似文献
8.
长期秸秆还田对潮土土壤各形态磷的影响 总被引:12,自引:0,他引:12
基于黄淮海低平原区潮土上33年长期肥料定位试验,采用蒋柏藩―顾益初的石灰性土壤无机磷分级方法,研究冬小麦―夏玉米轮作中长期不同氮磷用量下秸秆还田对土壤全磷、有效磷(Olsen-P)及各形态无机磷的影响。结果表明:黄淮海低平原区潮土上冬小麦―夏玉米轮作中P2O5用量0~240 kg hm~(-2),随磷肥用量的增加,土壤全磷、Olsen-P、无机磷总量及无机磷中Ca2-P、Ca8-P、Al-P和Fe-P均显著增加,O-P和Ca10-P无显著变化;当土壤输入磷量低于作物输出磷量时,无论秸秆还田与否,土壤全磷、无机磷总量、Olsen-P和无机磷中除Ca8-P外的其他各形态磷均无显著变化;当土壤输入磷量高于作物输出磷量时,随秸秆用量的增加土壤全磷、Olsen-P和无机磷中的Ca2-P、Ca8-P、Al-P均显著增加,其中以Olsen-P增幅最大,无机磷中以Ca2-P增幅最大,其次为Ca8-P,再次为Al-P;土壤磷素盈余和亏缺量与土壤中各磷形态含量均呈显著正相关关系。 相似文献
9.
K. Jin W.M. Cornelis W. Schiettecatte J.J. Lu D.X. Cai J.Y. Jin S. De Neve R. Hartmann D. Gabriels 《CATENA》2009
Field rainfall simulations were conducted in 2002 and 2005 to study the effects of different soil management practices on the total phosphorous (TP) and Olsen-P losses by soil erosion and redistribution along a 15 m long slope in Luoyang, Henan province, China. Field plots were set up in 2001 and included the following soil management practices: subsoiling with mulch (SSM), no-till with mulch (NTM), reduced tillage (RT), and a conventional tillage control (CT). The results showed that there were no significant differences in TP and Olsen-P content in the sediment load between different plots after 6 years uniform tillage practices. The enrichment of TP and Olsen-P at the lower slope showed a clear redistribution along the slope. Effects of tillage practices on the temporal pattern of the enrichment ratio (ER) of TP and Olsen-P was not uniform. ERTP values were initially high and diminished after a short period of time and leveled to the end of the rainfall test in CT and RT plots, but remained ≥ 1. The ER of Olsen-P at the end of rainfall simulation showed a significant difference when compared to the initial stage, 0.78 to 1.60, respectively. However, the temporal loss rate of TP and Olsen-P showed a similar pattern because it was more depending on the sediment loss rate than on the concentration in the sediment. SSM resulted in 96% less TP and Olsen-P erosion loss compared to CT in 2002. Also, SSM showed the highest reduction in TP and Olsen-P loss after 4 years consistent practice. RT reduced TP and Olsen-P loss by 30%, although the runoff reduction was not significant. NTM was the best alternative with respect to TP and Olsen-P conservation, when considering its lower operational costs. 相似文献
10.
中国典型农田土壤磷素演化对长期单施氮肥的响应 总被引:6,自引:0,他引:6
【目的】探讨中国典型土壤长期单施氮肥对土壤全磷和Olsen-P磷的影响。【方法】以土壤肥力与肥料长期定位试验为基础,应用常规化学分析法和数学统计方法,分析不同气候、不同耕作制度下15年单施氮肥(每季作物的施氮量为150 kg?hm-2)处理对6种典型土壤全磷和Olsen-P含量变化的影响。【结果】在长期单施氮肥条件下,耕作土壤全磷含量和土壤Olsen-P均呈下降趋势,全磷含量下降幅度为2.7%~25.0%。单施氮肥全磷含量下降幅度大于不施肥。Olsen-P含量下降有一定阈值,阈值大约为4 mg?kg-1。土壤Olsen-P含量下降率比全磷高几倍。耕层Olsen-P含量(y)与土壤磷素表观平衡(x)相关方程为y=0.0005x+3.9986,相关方程斜率很小,表明Olsen-P含量基本不受磷素表观平衡影响。【结论】长期单施氮肥加速了土壤全磷和Olsen-P的减少速度,其中全磷含量较低的土壤其下降幅度更大。 相似文献