模拟酸雨胁迫对赤红壤磷素形态特征的影响

通过田间小区模拟酸雨实验,研究酸雨胁迫下赤红壤不同磷素形态变化的方向和程度。结果表明,原位模拟酸雨影响下,一定强度（pH≥4.0）的酸雨胁迫能有效促进有效磷的释放,而当pH〈4.0强度酸雨胁迫时有效磷的释放随pH值降低逐渐受到抑制。随酸雨酸度的增强,土壤酸性磷酸酶和微生物量磷均呈现先升高后降低的变化趋势,可见一定强度酸雨胁迫能促进溶磷微生物和磷酸酶活性,而当高强度酸雨胁迫时土壤微生物活动逐渐受到抑制。无机磷组分中Al-P、Ca-P和Fe-P含量均随酸雨酸度的增强而降低,土壤O-P含量没有显著变化。相关分析发现,有效磷含量与微生物量磷、酸性磷酸酶呈极显著正相关,表明此时土壤有效磷变化与有机磷矿化关系最为密切。有效磷含量与各种形态无机磷（Al-P、O-P、Ca-P和Fe-P）含量之间也有较强的正相关性,表明土壤生态系统磷素转化是一个自我调节的动态平衡过程,且在一定条件下可以相互转化。     

畜禽废水磷回收产物的磷素释放特性及肥效试验研究

以畜禽废水沼气发酵液为磷回收对象,采用曝气沉淀结晶法磷回收工艺,对回收产物进行水溶性磷连续浸提试验和玉米盆栽试验,考察畜禽废水磷回收产物的磷素动态释放情况、玉米盆栽的肥效以及磷素利用情况。浸提试验表明,磷回收产物经6次浸提,水溶性磷的释放量呈缓慢下降的趋势,第6次与第1次相比只下降了1.42%,总释放量占总磷的57.97%,证明磷回收产物（RPP）具有良好的缓释性,作为肥料使用时不易被水淋失。盆栽试验表明,用RPP以不同比例代替磷酸一铵作为肥料对玉米均能起到显著的增产作用,最佳的质量替代比例为40%;RPP较磷酸一铵的地上部分和地下部分磷素利用率分别高出19.14%和2.50%,显示其具有较高的磷吸收效率。因此,从畜禽废水沼气发酵液中回收得到的磷回收产物具有较高的肥效价值,是一种节约资源、保护环境、缓解磷资源危机的新型肥料。     

横垄耕作的面源污染截留效应研究

为了解横垄耕作的面源污染截留效应,选取吉林省长春市莫家沟小流域横垄耕作坡耕地为研究区,应用210Pbex核素示踪技术得到研究区土壤侵蚀模数为2 268 t/(km2.a),吸附态氮、磷流失负荷分别为4 889、2 022 kg/a;运用RU-SLE2.0模型,模拟在同等立地条件下顺坡耕作土壤侵蚀模数约为6 200 t/(km2.a)。对比结果表明:横垄耕作较顺坡耕作可减少约63%的土壤流失量及随土壤流失的吸附态氮磷负荷。     

保护性耕作对小麦-土壤系统综合效应研究

采用长期定位试验与短期田间试验相结合的方法,通过室内化验分析和数理统计,研究了河南省不同土壤类型区保护性耕作对土壤理化性质、土壤微生物生物量碳氮及小麦(Triticum aestivum L.)籽粒产量和产量构成因素的影响。结果表明,与传统耕作相比,保护性耕作显著提高土壤有机质、碱解氮、有效磷及交换性钾含量,分别提高24.8%、14.3%、7.8%和24.8%;而对小麦增产效果并不显著。4种不同保护性耕作方式下,免耕、浅耕相比旋耕、深耕,提高小麦穗数15.0%～32.2%,提高穗粒数2.6%～12.6%,但4种处理间小麦千粒重及籽粒产量效果无显著差异;免耕、浅耕较旋耕、深耕可以一定程度上提高苗期和灌浆期土壤含水率、以及土壤碱解氮和有效磷,并显著提高小麦不同生育时期的土壤微生物生物量碳氮。免耕与浅耕是较为适宜河南省小麦生产及土壤可持续利用的保护性耕作方式。     

GENOTYPIC DIFFERENCES IN ROOT MORPHOLOGY AND PHOSPHORUS UPTAKE KINETICS IN BRASSICA NAPUS UNDER LOW PHOSPHORUS SUPPLY

Application of phosphorus (P) fertilizer is important in crop production because of the low bioavailability of phosphorus to plants in both acidic and calcareous soils. Although rapeseed (Brassica napus) is generally sensitive to P deficiency, different cultivars differ widely in this respect. Differences in P uptake and utilization between two rapeseed cultivars, one P-efficient (‘97081’) and one P-inefficient (‘97009’), were evaluated in solution culture by studying the changes in root morphology and parameters of P uptake kinetics in response to low-P stress. The P-efficient cultivar had lower Km and Cmin values and higher Vmax and developed longer and denser lateral root hair with greater number of root tips and branches under low-P stress, which resulted in a better developed root system and more efficient uptake of P. That, in turn, led to higher concentration and accumulation of P in the plants, culminating in higher biomass production. However, P utilization efficiency (biomass production per unit P accumulated in plant) of the P-efficient ‘97081’ was lower than that of ‘97009’ when P was deficient. These results suggest that P efficiency in rapeseed is due to a better developed root system as well as efficient uptake of P.     

Arbuscular mycorrhizal fungi improve the growth and phosphorus uptake of mung bean plants fertilized with composted rock phosphate fed dung in alkaline soil environment

Abstract

Inoculation effect of arbuscular mycorrhizal fungi (AMF) on phosphorus (P) transfer from composted dung of cattle with a diet supplemented with powdered rock phosphate (RP) and their successive uptake by mung bean plants was assessed in alkaline soil. The efficacy of composted RP fed dung alone or/and in combination with AMF inoculums containing six different species were compared with SSP in six replicates per treatment in pots. The results showed that the association of AMF with composted RP fed dung had a positive effect on mung bean shoot (3.04?g) and root (2.62?g) biomass, chlorophyll (a, b), carotenoid contents and N (58.38?mg plant^?1) and P (4.61?mg plant^?1) uptake. Similarly, the percent roots colonization (56%) and nodulation of mung bean plant roots and their post-harvest soil properties were also improved by the inoculation of AMF together with composted RP fed dung. It is concluded that the combined application of AMF with composted RP fed dung has almost the same effect as SSP for improving mung bean plants growth and their nutrients uptake. Moreover, AMF inoculants can be used as a suitable biofertilizer in combination with locally available organic sources of fertilizers for improving P status and growth of plants in alkaline soils.     

Effect of phosphorus fertilizer application on the performance of maize/soybean intercrop in the southern Guinea savanna of Nigeria

Field experiments were conducted at the Teaching and Research Farm, Ladoke Akintola University of Technology, Ogbomoso, Nigeria in 2007 and 2008 to determine the effects of phosphorus fertilizer application on performance of intercropped maize and soybean. The experiments, arranged as a split plot in a randomized complete block design, replicated four times. A cropping system with sole maize, sole soybean and maize/soybean intercrop formed the main plot treatments while P rates with 0, 15 and 30 kg P₂O₅ ha^?1 were the subplot treatments. For both years, neither P fertilizer application nor cropping systems had a significant effect on maize grain yield. However, soybean grain yield was significantly higher (92.3% in 2007 and 44.5% in 2008) under sole cropping than under maize/soybean intercropping. On average, N fixed by soybean increased with the increase in P rate (from 51.8% without P to 60.5% with 30 P), but there was no significant difference in N fixed by sole soybean and soybean/maize intercrop. However, the interaction effect on N fixed between cropping systems and P rates was significant (P ≤ 0.05). N, P and K contents in maize grain were significantly higher (>100%) in intercropped maize than in sole maize. The cropping systems had no significant effect on post-harvest soil chemical characteristics. The land equivalent ratio was 1.52 in 2007 and 1.78 in 2008. The result shows that in utilizing legumes for N enrichment, the alleviation of P deficiency can enhance N₂-fixation by legumes. Furthermore, P replenishment in a maize/soybean intercrop may improve maize grain quality even though yield is not increased.     

Fifteen-year fallow altered the dynamics of soil phosphorus and cationic balance of a savannah Alfisol

This study was designed to evaluate changes in the dynamics of soil phosphorus and cationic balances of a savannah soil subjected to 45 years of continuous cultivation under different fertilizer management and later left fallow for 15 years. It was conducted on the experimental plots at the Institute for Agricultural Research, Ahmadu Bello University, Nigeria. Treatments consisted of nitrogen (N), phosphorus (P), potassium (K), cow dung manure (D) and their combination (DNPK). Results of P fractionation and cationic distribution were compared with previous studies on the same plot 15 years ago. Organic carbon increased from a range of 3–5 g kg^?1 in 1997 to 10.9 g kg^?1 in 2012. Similarly, the cation exchange capacity (CEC) of the soil increased from 6.40 cmol_c kg^?1 in 1997 to 16.4 cmol_c kg¹ in the present study. The degree of saturation of the CEC by Ca²⁺ was 68–79% and 10–20% for Mg²⁺, while that of K⁺ was 1.5–2%. Although there was an uneven trend in depletion and enrichment of the various P pools, however, the fallow period substantially improved the CEC and the plant available P pools of the soil by more than 200% and 6–259%, respectively.     

县级测土配方施肥指标体系建立研究—以江苏省江都市水稻为例

以江苏省江都市水稻为例,基于地力差减法预测氮肥用量、 养分丰缺指标法预测磷钾肥用量,构建县域测土配方施肥指标体系,研究分析20052011年测土配方施肥田间试验示范。结果表明,当种植水稻预测目标产量为6825~9270 kg/hm2（平均为8145 kg/hm2）,氮肥推荐用量为146.42~57.4 kg/hm2（平均为207.5~ kg/hm2）。磷钾肥施用标准: 当有效磷含量高于21 mg/kg,不推荐施用磷肥;当有效磷含量在17~21 mg/kg时,推荐施磷（P2O5）量为40.5 kg/hm2;当有效磷含量在10~17 mg/kg时,推荐施磷（P2O5）量为 48 kg/hm2;当有效磷含量低于10 mg/kg 时,推荐施磷（P2O5）量为64.5 kg/hm2。当速效钾含量高于140 mg/kg,不推荐施用钾肥;当速效钾含量在115~140 mg/kg时,推荐施钾（K2O）量为 22.5 kg/hm2;当速效钾含量在60~115 mg/kg时,推荐施钾（K2O）量为40.5 kg/hm2;当速效钾含量低于60 mg/kg 时,推荐施钾（K2O）量为 82.5 kg/hm2。同时对施肥指标体系建立进行校验分析,结果表明基于试验建立施肥指标体系是可行的,从而为构建县域测土配方施肥指标体系提供了方法,达到因土施肥的目的。     

水、磷对紫花苜蓿产量及水肥利用效率的影响

【目的】紫花苜蓿作为畜牧业生产中最主要的优质绿色饲料,是发展草食畜牧业的物质基础,同时它也是一种需水需肥较多的作物。如何从技术方面提高单位面积苜蓿产量,实现苜蓿高产栽培是科学研究人员及生产者研究的重点。北京市东南部接壤的蓟县、宝坻及南部接壤的廊坊、武清等地区,是北京市在生态和环境优先发展原则下畜牧养殖业外移的重要承接区域,苜蓿在当地种植缺乏科学指导,年干重产量仅为7500~10000 kg/hm2,盐碱地年产量更低,为4500~6000 kg/hm2。本研究通过苜蓿水肥试验确立紫花苜蓿达到高产的最佳磷肥施用水平和灌水量,为京南地区苜蓿高产及水肥的高效利用提供可借鉴的水肥管理技术。【方法】实验在低磷砂壤土条件下进行,选用紫花苜蓿中苜2号品种,设置全生育期不灌水（W0）、以及返青后及第1、2茬刈割后灌水且每次灌水25 mm （W1）、50 mm （W2）、75 mm （W3）4个灌水处理;每个灌水处理下设置不施磷（F0）、施P2O5 105 kg/hm2（F1）、210 kg/hm2（F2）3个施磷量处理,研究了灌水和施磷对紫花苜蓿产量、水分和磷肥利用效率的影响。【结果】1）灌水对1、2茬苜蓿产量的影响有显著差异,对3、4茬及全年产量的影响无显著差异;施磷肥对第3茬苜蓿产量没有显著影响,但对第1、2、4茬及全年苜蓿产量的影响均存在显著差异。2）灌水和施磷肥对紫花苜蓿的水分和肥料利用效率均有显著影响,随着施磷量的增加,苜蓿的水分利用率逐渐增大,说明施磷可以提高水分利用效率;随着灌水量的增加,苜蓿的磷肥利用效率呈先增加后降低的趋势,说明适当的增加灌水量可以提高苜蓿的磷肥利用效率。【结论】综合考虑紫花苜蓿产量、水分和肥料利用效率等指标,最优试验处理为每次灌水量50 mm,施P2O5 210 kg/hm2,其次为每次灌水量25 mm, 施P2O5 210 kg/hm2。