棉花膜下滴灌施肥技术的研究

通过试验表明,棉田膜下滴灌施肥,氮肥在土壤中移动性大,可以随水移动到耕层湿润峰的各个部位,而磷肥易被土壤固定,主要集中分布在0～10cm表层,向下层移动量较小。氮肥当季利用率为47 77%～53 15%,与常规施肥相比提高显著;磷肥当季利用率为18 73%～26 33%,其中磷肥采用基施配合滴施肥料当季利用率最高,比全部基施或全部滴施提高3 87～4 66个百分点;在生产中氮肥全部采用滴施是可行的,而磷肥应坚持基施为主、滴施为辅的施肥原则,基滴肥比例应根据土壤情况具体确定。     

Effects of cropping systems,maize residues application and N fertilization on promiscuous soybean yields and diversity of native rhizobia in Central Kenya

Agriculture intensification has resulted in severe soil nutrient depletion in Africa. Alternative agricultural practices have been promoted to reduce the use of expensive mineral fertilizers and to restore and sustain soil fertility. The use of mineral fertilizer combined with organic inputs (such as crop residues) and different cropping systems (cereal–legume association or rotation) have been particularly promising. Impacts of these agricultural practices on soil communities have been widely studied, yet little is known on the effect on more specific groups such as rhizobia. A field trial was set up in Chuka (Kenya) to assess the impact of different cropping systems (maize and soybean in intercropping, rotation or monocropping) combined with N fertilization and residues application on the genetic diversity of promiscuous soybean rhizobia during two seasons. Soybean yields were severely reduced by moisture stress and the association with maize compared to mono-legume and rotation systems. Nodulation was generally low but was positively affected by residues application. Diversity of native rhizobia was very low (Shannon indices H′ < 0.8) across the experiment and was not affected by the treatments. Only 5 IGS profiles were obtained after RFLP analysis and all isolated rhizobia were identified as Bradyrhizobium elkanii. The distribution of the different IGS groups within the experiment was more affected by season and residues application than by cropping system and nitrogen fertilizer application. These results suggest a limited population and a low diversity of indigenous rhizobia, and emphasize the need of alternative managements to increase and sustain soybean yields in Central Kenya.     

Yield of alfalfa as influenced by levels of P and K fertilization

Abstract

This study was conducted to ascertain further the need for P and K fertilizers to obtain maximum herbage yields from alfalfa (Medicago sativa L.). Vernal alfalfa was established on a low K Piano silt loam (Typic Argiudoll) soil and topdressed with zero, 22.4, and 44.8 kg/ha of P in autumn of seeding year and with zero, 224, and 672 kg/ha of K as KC1 each autumn. The harvest schedule was three cuts annually at first flower; a schedule widely recommended in the North Lake states. No statistical significance was found for P levels nor for the P x K interaction; significance was found only for K levels. Maximum herbage yield was obtained with 224 kg/ha of K in the first harvest year, but with the 672 kg/ha of K rate in the second harvest year. Herbage K and Cl percentages and amounts removed from the soil increased significantly each year with each increase in K applied. Herbage P and N percentages were decreased significantly with the first increment of K. Residual herbage yields showed dramatically the influence of K fertilization on winter survival. All alfalfa stands with no K fertilization were killed completely. Residual yields and stands increased with each increase in K applied. Yield increase over the control was significant only with the second increment of K, while stands increased significantly with each increase in K applied. These data continue to confirm that high levels of soil K are needed for stand survival as well as for high herbage yields.     

不同施肥制度对作物产量及肥料贡献率的影响

通过17年的长期定位肥料试验,研究了不同施肥制度对作物产量及肥料贡献率的影响,结果表明:化肥N、P、K的施用均能明显提高作物产量,其增产率分别为32.10%、15.06%、10.95%;循环回田的农家肥养分对作物增产有明显的残效叠加作用,且具有良好的稳产作用,可以满足作物对不同气候年景的适应性。在本试验中,若将保持养分循环再利用基础上施用NPK化肥视为最佳施肥制度,则在保持其他农业技术不变条件下,最大施肥贡献率为0.44。在下辽河平原土壤、气候和生产力水平等条件下,为保证作物持续高产,应同时施用化肥和循环肥。     

Productivity of two stevia varieties under reduced irrigation and fertilization inputs

A 3-year field study was conducted in central Greece to determine the productivity of two stevia [(Stevia rebaudiana (Bertoni) Bertoni] varieties (‘Morita’ and ‘Candy-stevia’) under normal and reduced irrigation (100% and 75% of the evapotranspiration) and fertilization [1:0.8:1.1 or 1:0.4:0.8 N:P:K ratio in the first year and only N fertilization (100% or 74% of the recommended rate) in the second and third years] inputs. Averaged across years, stevia cv. Morita achieved greater dry leaf yield (3.48 t ha^?1) than the cv. Candy-stevia (2.85 t ha^?1). Irrigation and fertilization inputs did not significantly affect stevia cv. Morita dry leaf and steviol glycosides (stevioside plus rebaudioside-A) yields; however, decreasing irrigation and fertilization caused slight reduction of cv. Candy-stevia yields. In cv. Morita leaves, the concentrations of stevioside and rebaudioside-A ranged from 5.97% to 7.78% and 3.73% to 4.79%, respectively, while the corresponding concentrations in cv. Candy-stevia leaves were 8.21–9.36% and 3.89–6.33%. Conclusively, both stevia varieties could achieve satisfactory dry leaf biomass and steviol glycosides yield, even when grown under reduced irrigation (at 75% of evapotranspiration) and reduced N fertilization (74% of the recommended rate). Thus, stevia could represent an alternative crop to tobacco in the Mediterranean conditions.     

Changes in soil properties and the availability of soil micronutrients after 18 years of cropping and fertilization

Micronutrient deficiencies are common in many parts of China's Loess Plateau. The objective of this experiment was to study the effects of long-term cropping and fertilization practices on soil properties and micronutrient availability in this region. The field plot experiment began in 1984. It included five cropping systems and four fertilizer treatments. In September 2002, soil samples were collected and soil pH, organic matter content, available P, and CaCO₃ were measured. Total and available Zn, Cu, Mn, and Fe were also determined. The relationship between soil properties and available micronutrients was determined by correlation and path analysis. After 18 years, soil pH and CaCO₃ levels were lower in the cropped and fertilized treatments compared to the fallow treatment. In contrast, soil organic matter and available P levels were higher in cropped compared to fallow treatments. A comparison of unfertilized treatments indicated that available Zn and Cu levels in cropped treatments were lower compared to the fallow treatment, probably due to the removal of these micronutrients from the system through crop uptake and harvest. In contrast, available Mn and Fe levels were higher in cropped treatments compared to the fallow treatment. The impacts of fertilization on available micronutrients varied with cropping systems. Generally, available Zn and Fe were higher in fertilized compared to unfertilized treatments, but available Cu was not significantly influenced by fertilization. Fertilization tended to increase available Mn in continuous wheat and maize, but reduced available Mn in continuous clover and the crop–legume rotation. The total (plant available + unavailable) micronutrient contents were lower in the four cropped-treatments compared to the fallow treatment. The addition of manure or P fertilizer increased total Zn, Fe, and Mn, but had no significant effect on total Cu. The results of correlation analysis and path analysis indicated that soil organic matter exerts a significant and direct effect on the availability of Zn, Mn, and Fe, but has little influence on available Cu. The effects of available P, CaCO₃, and pH on micronutrient availability were indirect, passing through soil organic matter. The results of this study suggest that long-term cropping and fertilization altered several important soil properties and increased the plant available micronutrient content of this loess-derived soil.     

Role of crop diversification and integrated nutrient management in resilience of soil fertility under rice-wheat cropping system

A field study conducted for two crop cycles of five cropping systems supplied with six nutrient combinations at the Indian Agricultural Research Institute, New Delhi indicated that the cropping systems having a legume increased organic C content over initial level by 0.02?–?0.05%, available N by 3.5?–?14.1?kg ha^???1, whereas the rice-wheat cropping system resulted in a reduction in organic C and available N over initial level by 0.05% and 1.5?kg ha^???1, respectively after 2 years of study. Rice-potato-mungbean cropping system resulted in a negative balance of available P and rice-clover cropping system had a negative balance of both available P and available K content in soil and thus call for adequate P and K fertilization. Application of P and K helped in building up their content in soil; NPK?+?FYM showed the highest increase in organic C, available N, available P and available K content in soil. These results suggest the inclusion of a legume in a cropping system for maintaining organic C and available N in soil and adequate P and K fertilization for arresting the depletion of available P and K content in soil. Integrated nutrient management is one of the best methods for resilience of soil fertility under rice-wheat cropping system.     

集约水稻系统下施肥对土壤有机氮形态及供氮的影响

Changes of soil organic nitrogen forms and soil nitrogen supply under continuous rice cropping system were investigated in a long-term fertilization experiment in Jinhua, Zhejiang Province, China. The fertilizer treatments included combination of P-K, N-K, N-P, and N-P-K as well as the control. After six years of continuous double-rice cropping, total soil N and hydrolysable N contents remained stable in plots with N treatments, while the hydrolysable N contents were substantially reduced in those plots without N application. Compared to the unbalanced fertilization treatments, P and K increased the percentage of hydrolysable ammonium N in the total soil N with the balanced application of N, and also maintained higher rice grain yields and nitrogen uptake. Grain yield was positively correlated with total N uptake （r = 0.875^＊＊）, hydrolysable N （r = 0.608^＊＊）, hydrolysable ammonium N （r = 0.560^＊＊） and the hydrolysable unknown N （r = 0.417^＊＊）. Total N uptake was positively correlated with hydrolysable N （r = 0.608^＊＊）, hydrolysable ammonium N （r = 0.440^＊＊） and hydro, lysable unknown N （r = 0.431^＊＊）. Soil nutrient depletion and/or unbalanced fertilization to rice crop reduced N content in soil microbial biomass, and therefore increased C/N ratio, suggesting a negative effect on the total microbial biomass in the soil.     

“稻鸭共生”养分归还特征及水稻植株对氮、磷的吸收

"稻鸭共生"是对我国传统农业稻田养鸭的继承与发展。在长江流域双季稻主产区湖南布置了稻田养鸭田间试验,以常规稻作为对照,研究早、晚稻两季"稻鸭共生"养分归还特征及对水稻植株氮、磷吸收的影响。结果表明:两季"稻鸭共生"后,稻田可增加鸭粪碳229.87 kg.hm 2、鸭粪氮18.22 kg.hm 2、鸭粪磷17.75 kg.hm 2。"稻鸭共生"归还稻田土壤的碳、氮、磷量分别为1 491.21 kg.hm 2、66.02 kg.hm 2、25.14 kg.hm 2,比常规稻作分别提高20.43%(P>0.05)、55.81%(P<0.05)、379.00%(P<0.05)。"稻鸭共生"归还稻田土壤的碳、氮、磷量表现为碳>氮>磷,归还的碳、氮量以水稻根碳、氮占明显优势,归还的磷量以鸭粪磷占明显优势。与常规稻作相比,土壤全氮含量提高5.73%,全磷含量显著提高6.25%;"稻鸭共生"提高了早、晚稻根和秸秆的全氮、全磷含量及早、晚稻籽粒的全磷含量,增加了早、晚稻秸秆的氮、磷吸收量和早、晚稻根的磷吸收量,降低了双季稻产量及籽粒的氮、磷积累量。"稻鸭共生"对水稻植株磷的影响效果好于氮。     

The characteristics of overland flow under varied tillage and cropping systems in Sichuan Basin, China

Data from runoff plots operated over a five year period show that significantly less overland flow is generated with a seasonal no-till ridge system than with contour tillage or straight tillage systems. Seasonal no-till ridge is the optimum system for increasing the availability of water for rainfed agriculture on the dryland soils in the hilly area of Sichuan Province, China.     

福建早稻测土配方施肥指标体系研究

根据近年来完成的135个氮、磷、钾肥效试验结果,建立福建早稻测土配方施肥指标体系。结果表明,土壤对稻谷的平均贡献率为73.5%,施用氮、磷、钾平均增产18.1%、5.4%和8.6%,土壤贡献率和氮、磷、钾增产效果与肥力等级成正比。山区早稻高产临界指标分别为碱解氮212 mg/kg、Olsen-P26 mg/kg和速效钾116 mg/kg,沿海早稻则分别为碱解氮203 mg/kg、Olsen-P 22 mg/kg和速效钾104 mg/kg,明显低于山区稻田。早稻最高施肥量平均为N166 kg/hm2、P2O569 kg/hm2和K2O 113 kg/hm2,经济施肥量平均为N 134 kg/hm2、P2O535 kg/hm2和K2O 78kg/hm2,但不同生产区域和土壤肥力等级的氮、磷、钾推荐用量有一定差异。建立了土测值与氮、磷、钾推荐用量的回归方程式,从而达到因土施肥的目的。     

土区长期施肥对小麦-玉米轮作体系钾素平衡与钾库容量的影响

本文研究了土区小麦-玉米轮作体系长期氮磷钾化肥不同配合施用方式及氮磷钾化肥与秸秆或有机肥配合施用对钾素平衡以及土壤钾库的影响。试验包括9个处理,分别为不施肥（CK）、单施氮（N）、氮钾（NK）、磷钾（PK）、氮磷（NP）、氮磷钾（NPK）、氮磷钾配合一季秸秆还田（SNPK）、氮磷钾配合低量有机肥（M1NPK）和高量有机肥（M2NPK）。结果表明,除NK、PK和M2NPK处理外,其它处理小麦和玉米钾的携出量均大于钾的投入量,导致土壤钾素处于亏缺状态,20年累计亏缺量为6174333 kg/hm2。与试验前相比,长期施肥种植没有显著影响土壤全钾含量; 长期施用钾肥显著提高土壤速效钾含量,但长期不施钾肥处理的土壤速效钾含量也未显著降低; 无论施钾与否土壤非交换性钾（Mactotal K）以及非交换性钾中更容易被HNO3溶解提取的钾（Step K）均明显低于试验前水平。表明土壤非交换性钾可以作为该土壤钾素消耗的指标。考虑到施钾肥的经济投入和现有资源高效利用（如秸秆、有机肥）,从长远的角度出发,维持土壤钾素肥力以及土地可持续生产力,土区小麦-玉米轮作体系采用秸秆全部还田或施有机肥是必要的。     

不同施肥方法对双季稻区水稻产量及氮素流失的影响

为保障粮食安全,减少稻田生态系统氮肥投入,提高氮肥利用率和减少氮素流失成为重要的农业和环境措施。本研究在位于湖南岳阳的农业部岳阳农业环境科学观测实验站开展为期1年的早稻、晚稻田间试验,比较了不施肥(T_1)、尿素常规施肥(T_2,施N 280 kg·hm~(-2)、P_2O_5 165 kg·hm~(-2)、K_2O 120 kg·hm~(-2))、控释肥常规施用(T_3,施N 230 kg·hm~(-2)、P_2O_5 165 kg·hm~(-2)、K_2O 120 kg·hm~(-2))、高量控释肥侧条施用(T_4,施N 230 kg·hm~(-2)、P_2O_5 138 kg·hm~(-2)、K_2O 120 kg·hm~(-2))、中量控释肥侧条施用(T5,施N 180 kg·hm~(-2)、P_2O_5 123 kg·hm~(-2)、K_2O 120kg·hm~(-2))及低量控释肥侧条施用(T6,施N 140 kg·hm~(-2)、P_2O_5 123 kg·hm~(-2)、K_2O 120 kg·hm~(-2))下氮肥的养分利用率、作物产量及氮素流失情况,以期为稻田氮素合理利用提供理论依据。研究结果表明,控释肥侧条施用可有效提高水稻的产量和氮肥利用率,减少面源流失。1)在减少稻田秧苗数量和氮肥施用量的条件下,T_4处理的水稻早晚稻产量分别比T_2处理增加13.17%和4.72%,与T_3处理相比亦分别增加7.27%和1.74%;2)侧条施肥处理有效降低了稻田氮素流失量,年氮流失量为0.466~0.673 kg×hm~(-2),比常规施肥处理降低地表径流氮流失量3.54%~29.36%;3)侧条施肥有效提高了氮肥利用率,T_4处理的氮肥利用率分别是T_2、T_3处理的1.70倍和1.22倍。因此,采用合适的施肥方式、配施适量控释氮肥可获得较高的产值和收益。高量控释肥侧条施用(T_4)是本研究区域最佳的施肥模式,对实现现代化农业生产的高产高效、资源节约和生态环境保护具有重要意义。     

Effects of P fertilization level on phosphorus uptake and agronomic traits under deficit irrigation in winter wheat (T. aestivum L.)

Abstract

Enhancing the phosphorus (P) use efficiency is critical for the sustainable cultivation of winter wheat. In this study, we investigated the effects of P fertilization level on plant P-uptake and agronomic traits under deficit irrigation, by using two wheat cultivars sharing contrasting water responses (i.e., Jimai 585 and Shimai 22). The high P level treatment (P120) improved plant biomass and P accumulation at each growth stage, grain yields, P remobilization amount to grain (PRA), P remobilization rate (PRR), and P contribution rate (PRR) of the cultivars with respect to the low P treatments (i.e., P90 and P60). Compared with Jimai 585, a cultivar acclimated to affluent water, the drought tolerant cultivar Shimai 22 exhibited similar behaviors on plant biomass, P-associated traits at each stage, and agronomic traits at maturity under P120. However, Shimai 22 was more improvement on P-associated and agronomic traits than Jimai 585 under P60 and P90. P contents were increased whereas moisture contents decreased in soil profile treated by P120 with respect to those by P60. Meanwhile, the soil profile cultivated by Shimai 22 displayed reduced moisture and P contents under P deprivation (i.e., P90 and P60) respect to that by Jimai 585, suggesting the contribution of more consumption of soil P and water storage to improved agronomic traits of Shimai 22. Together, our investigation suggested that suitable P input management positively mediates plant P-associated traits and grain formation capacity under deficit irrigation by improving supply and internal translocation of P across tissues in winter wheat plants.     

Influence of crop residue management, cropping system and N fertilizer on soil N and C dynamics and sustainable wheat (Triticum aestivum L.) production

Management of N is the key for sustainable and profitable wheat production in a low N soil. We report results of irrigated crop rotation experiment, conducted in the North West Frontier Province (NWFP), Pakistan, during 1999–2002 to evaluate effects of residue retention, fertilizer N application and mung bean (Vigna radiata) on crop and N yields of wheat and soil organic fertility in a mung bean–wheat sequence. Treatments were (a) crop residue retained (+residue) or (b) removed (−residue), (c) 120 kg N ha⁻¹ applied to wheat, (d) 160 kg N ha⁻¹ to maize or (e) no nitrogen applied. The cropping system was rotation of wheat with maize or wheat with mung bean. The experiment was laid out in a spit plot design. Postharvest incorporation of crop residues significantly (p < 0.05) increased the grain and straw yields of wheat during both years. On average, crop residues incorporation increased the wheat grain yield by 1.31 times and straw yield by 1.39 times. The wheat crop also responded strongly to the previous legume (mung bean) in terms of enhanced grain yield by 2.09 times and straw yield by 2.16 times over the previous cereal (maize) treatment. Application of fertilizer N to previous maize exerted strong carry over effect on grain (1.32 times) and straw yield (1.38 times) of the following wheat. Application of N fertilizer to current wheat produced on average 1.59 times more grain and 1.77 times more straw yield over the 0 N kg ha⁻¹ treatment. The N uptake in wheat grain and straw was increased 1.31 and 1.64 times by residues treatment, 2.08 and 2.49 times by mung bean and 1.71 and 1.86 times by fertilizer N applied to wheat, respectively. The soil mineral N was increased 1.23 times by residues, 1.34 times by mung bean and 2.49 times by the application of fertilizer N to wheat. Similarly, the soil organic C was increased 1.04-fold by residues, 1.08 times by mung bean and 1.00 times by the application of fertilizer N. We concluded that retention of residues, application of fertilizer N and involvement of legumes in crop rotation greatly improves the N economy of the cropping system and enhances crop productivity in low N soils.     

氮、磷、钾肥对卡因菠萝产量和品质的影响

运用3414试验设计,在大田试验条件下研究氮、 磷、 钾肥不同配比对卡因菠萝产量和品质的影响,提出适宜的肥料用量。结果表明:施用氮（N）、 磷（P2O5）、 钾肥（K2O）卡因菠萝分别增产15.5、 4.8和12.6 t/hm2,增产率为16.8%、 4.5%和13.1%,增加纯收入34800、 11000和27600 Yuan/hm2,农学效率分别为39.3、 42.3和29.6 kg/kg; 施肥增产、 增收效果以及对产量的贡献率均表现为N＞K2O＞P2O5, 肥料农学效率则表现为P2O5＞N＞K2O。在 P2（100 kg/hm2）K2（500 kg/hm2）基础上,施氮降低果实中维生素C和可滴定酸含量,增加了可溶性糖含量,而在N2（400 kg/hm2）P2（100 kg/hm2）基础上,施钾增加果实中维生素C、 可滴定酸和可溶性糖含量,施用磷肥对果实品质影响不大。对卡因菠萝产量效应函数进行频率分析法寻优得出,卡因菠萝目标产量超过105 t/hm2, 95%置信区间的优化施肥量为氮（N）281.27~436.48 kg/hm2、 磷（P2O5）64.03~121.69 kg/hm2、 钾（K2O）428.59~628.55 kg/hm2,N、 P2O5、 K2O的最优施肥量配比为1∶0.15~0.43∶0.982.23。研究结论可为果农从事卡因菠萝栽培提供施肥参考。     

盐碱地咸水灌溉枸杞种植条件下土壤盐分变化

In order to utilize the wasted saline-sodic soils under shallow groundwater condition,a 3-year field study was carried in a field cropped with Lycium barbarum L.and irrigated by drip irrigation with saline groundwater under the water table depth of 30-40 cm in the northern Yinchuan Plain,China.Effects of cropping duration (one,two,and three years) on soil salinity,soil solution composition,and pH in three adjacent plots were investigated in 2008.Results showed that a high irrigation frequency maintained high soil water potential and subsequently facilitated infiltration and downward movement of water and salt in the crop root zone.Salt accumulated on the edges of the ridges,and soil saturated-paste electrical conductivity (ECe) was higher in the edge.Concentrations of Na+,Ca2+,Mg2+,Cl-,and SO42- in the soil increased with the soil depth as did the ECe,while HCO3- and pH had a relative uniform distribution in soil profile.As planting year increased,the ECe and soil salts in the field had a decreasing tendency,while in the root zone they decreased immediately after irrigation and then remained relatively stable in the following growing seasons.HCO3- and pH had little change with the planting year.Results suggested that the application of drip irrigation with saline water could ameliorate saline-sodic soil and provide a relatively feasible soil environment for the growth of salt-tolerant plant Lycium barbarum L.under the saline-sodic soils with shallow groundwater.     

江淮区域稻麦两熟制周年资源分配、利用特征

江淮区域稻麦周年两熟种植模式自然资源分配与利用特征尚不明确,限制了该区作物周年高产高效协同发展。本研究通过对江淮区域不同地区多年多点水稻-小麦种植模式高产试验数据分析,明确两熟制季节间资源分配特征、资源利用效率及其与产量的关系。结果表明：2008-2017年小麦季和周年辐射均呈降低趋势,水稻季沿淮和江淮地区呈增加趋势,沿江地区呈降低趋势;小麦季积温呈增加趋势、水稻季大部分呈降低趋势,周年沿淮地区呈增加趋势,江淮和沿江地区呈降低趋势;降雨小麦季、水稻季和周年总体呈增加趋势。江淮地区周年辐射量从北向南逐渐减少,不同种植模式间无显著差异;小麦季、水稻季辐射分配率粳稻-小麦模式分别为53.1%、51.9%,籼稻-小麦模式分别为55.0%、49.8%。江淮地区从北向南累积积温和降雨量逐渐增加,不同种植模式间无显著差异;小麦季、水稻季积温分配率粳稻-小麦模式为38.5%、67.3%,籼稻-小麦模式为40.7%、65.1%;小麦季、水稻季降雨分配率在2种模式间无显著差异,而不同地区间差异显著,沿淮地区为32.8%、70.5%,江淮地区为40.8%、64.7%,沿江地区为46.2%、57.2%。当前生产模式下,江淮区域稻麦两熟种植模式以水稻产量所占比重最高,平均为57.0%。小麦季积温生产效率沿淮地区显著高于江淮地区和沿江地区,不同种植模式间差异较小;水稻季积温生产效率不同地区不同模式间差异较小;周年积温生产效率不同地区间差异显著,且沿淮地区 > 江淮地区 > 沿江地区,不同种植模式间差异不显著。区域间作物光能生产效率差异较小,小麦季、水稻季和周年均无显著差异。不同地区降雨生产效率变异较大,小麦季、水稻季和周年均以沿淮地区大于江淮地区,显著高于沿江地区;不同种植模式间无显著差异。因此,江淮区域稻麦周年两熟资源高效利用原则应以合理配置季节间辐射为主,兼顾降雨和积温。不同地区应结合气候资源配置特点,通过合理的播栽期、周年生育期适宜的品种搭配等栽培措施将部分光热资源调配给水稻,实现产量和资源利用效率双提升。     

黄土高原南瓜高糖低硝酸盐施肥模式研究

采用N、P、K3因素最优设计,在陕北黄土高原进行了南瓜氮、磷、钾用量及其肥效反应模式田间试验,研究不同施肥量对南瓜硝态氮、可溶性糖两项营养品质的影响,旨在探讨南瓜品质高糖低硝酸盐的N、P、K肥效反应模式,提出优化的施肥方案。结果表明,N肥单因素对南瓜硝态氮和可溶性糖含量影响最大,K肥单因素对南瓜硝态氮和可溶性糖含量影响不显著,N与P交互作用对南瓜高糖低硝酸盐影响显著,K肥施用量一定时,氮肥与磷肥的施用量不易过大。根据南瓜N、P、K肥效反应模式,筛选出南瓜品质硝态氮含量在200mg·kg-1以下、可溶性糖含量在7%以上的较佳施肥量为施氮95～120 kg·hm-2,施磷40～70 kg·hm-2,施钾35～80 kg·hm-2,N∶P2O5∶K2O=1∶0.42∶0.37。     

新疆库尔勒香梨NPK肥料效应研究

应用二次多项式组合设计,在新疆阿克苏棕漠土上进行了连续3年的香梨氮、磷、钾肥料效应定位试验,研究结果表明,本试验条件下当N 380~395 kg/hm2,P2O5185~190 kg/hm2,K2O 134~138 kg/hm2,三要素比例为1∶0.49∶0.35时,香梨有最佳的经济效益和最高的产量。