Irrigation and nutritional effect on growth and seed yield of coriander (Coriandrum sativum L.)

Optimum quantity of fertilizers and irrigation water to minimize the cost and increase the production is need of the day. Consequently, an experiment was conducted at CCS Haryana Agricultural University, Hisar during the winter season of 2014–15 and 2015–16 to study the effect of irrigation schedules and fertilizer levels on coriander. Irrigation at 25, 50, 75, and 100 days after sowing (DAS) gave higher growth and yield attributing characters, seed yield (16.48 q/ha), biological yield (50.79 q/ha), net return (Rs. 138,950.6), and benefit to cost ratio (2.36), which resulted in 40.9% and 15.3% increase in seed and biological yield over two irrigations, respectively. The application of fertilizers, i.e., N₆₀ and P₅₀ kg/ha, registered higher growth, seed yield attributes, consumptive use of water, whereas, net return and benefit to cost ratio was recorded maximum under fertilizers, i.e., N₇₅ and P_62.5 kg/ha. The interaction effect of irrigation and fertilizer on seeds per umbellet and seed yield was also found to be significantly positive. Hence, in Northern Plains of India four irrigations at 25, 50, 75, and 100 DAS in association with nitrogen 75 kg/ha and phosphorus 62.5 kg/ha is more profitable in coriander crop.     

Effects of manure-based urea pellets on growth,yield, and nitrate content in coriander,garden cress,and parsley plants

Various organic residues and animal manures represent an excellent matrix material for production of natural-based pellet fertilizers. Fully decomposed cow manure with 50% w/w urea was used for pellet production in densities of 400 or 800 kg/m³, representing low and high compact urea pellets. The growth of coriander (Coriandrum sativum L.), garden cress (Lepidium sativum L.), and parsley (Petroselinum crispum Mill.) were then evaluated under application of these pelleted urea compared to urea alone and unfertilized plants. The total amount of applied nitrogen (N) in the form of urea or pelleted urea was 300 mg/kg soil, wherein pelleted urea treatments, 30% of N was incorporated into the soil as urea alone before planting. The results showed that application of pelleted urea in low and high compactness resulted in different plant responses in the three vegetable crops. Plant growth and biomass production was increased in plants treated with urea or low compact urea pellets. Leaf N concentration and the Soil-Plant Analysis Development (SPAD) index were increased by low but not by high compact urea pellet application. Regardless of compactness, pellet treated plants had less nitrate content compared to urea treated plants. Number of flowering plants in coriander and garden cress was higher with high compact urea pellet and in unfertilized plants, whereas plants treated with urea or with low compact urea pellet showed fewer flowering plants. So, for production of these leafy vegetables low compact pellet is preferred.     

Soil fertility effects on growth and nutrient uptake of rhizoma peanut

Expansion of forage production acreage for rhizoma peanut (RP ‐ Arachis glabrata Benth.), a persistent perennial, warm‐season forage legume adapted to the Gulf Coast region of the southeastern United States, is limited primarily by establishment rate, often taking up to three years. The objective was to determine the effects of two divergent soil environments on the dry matter production and nutrient uptake of RP in the first year following establishment. Five Arachis genotypes, ‘Arbrook’, ‘Florigraze’, and experimental lines 423, 575, and 616, were established during March 1995 at Clinton and Olive Branch, LA. Soils were a Dexter silt loam (Ultic Hapludalf) and a Loring silt loam (Typic Fragiudalf, fine‐silty, mixed, thermic) with mean pH values of 6.8 and 4.7, respectively. Soils also differed for extractable potassium (K), sodium (Na), calcium (Ca), aluminum (Al), sulfur (S), copper (Cu), iron (Fe), manganese (Mn), and organic matter (OM). Tissue samples were taken at three week intervals in 1996 and yield and quality were evaluated at six week intervals. Locations differed significantly for dry matter production, crude protein (CP), neutral detergent fiber (NDF) and in vitro true digestibility (IVTD). Entries also differed within locations for yield, CP, NDF, acid detergent fiber (ADF), and IVTD. Tissue nitrogen (N), K, Ca, S, Mn, boron (B), and zinc (Zn) were significantly different between locations, but phosphorous (P), magnesium (Mg), Fe, Cu, and Al were not different. Yield and forage quality were both inversely correlated with pH and, with the exception of N, none of the other nutrients were low enough to account for the differences observed in growth between the two locations.     

Nematicidal activity of plant essential oils and components from coriander (Coriandrum sativum), Oriental sweetgum (Liquidambar orientalis), and valerian (Valeriana wallichii) essential oils against pine wood nematode (Bursaphelenchus xylophilus)

Commercial essential oils from 28 plant species were tested for their nematicidal activities against the pine wood nematode, Bursaphelenchus xylophilus. Good nematicidal activity against B. xylophilus was achieved with essential oils of coriander (Coriandrum sativum), Oriental sweetgum (Liquidambar orientalis), and valerian (Valeriana wallichii). Analysis by gas chromatography-mass spectrometry led to the identification of 26, 11, and 4 major compounds from coriander (Coriandrum sativum), Oriental sweetgum (Liquidambar orientalis), and valerian (Valeriana wallichii) oils, respectively. Compounds from each plant essential oil were tested individually for their nematicidal activities against the pine wood nematode. Among the compounds, benzaldehyde, trans-cinnamyl alcohol, cis-asarone, octanal, nonanal, decanal, trans-2-decenal, undecanal, dodecanal, decanol, and trans-2-decen-1-ol showed strong nematicidal activity. The essential oils described herein merit further study as potential nematicides against the pine wood nematode.     

半干旱地区土壤水分和养分对玉米生长和产量的耦合影响

Interaction between soil water and nutrients plays an important role in sustainable crop management in semi-arid environments.On the basis of a field experiment conducted from 2000 to 2003,this study examined the coupled effects of irrigation and fertilizers on maize growth and yield in a semi-arid region of northeastern China.In terms of plant productivity,nitrogen fertilizer had the most significant effect followed by irrigation and phosphate levels.The combined application of nutrients and irrigation exerted a synergistic effect on the grain yield of maize plants.Regression analysis indicated that optimal levels of nitrogen and phosphate,in addition to adequate irrigation,could greatly improve the efficiency of grain production.Similarly,optimization of soil nutrient availability substantially increased water use efficiency.These suggested that for the most efficient and sustainable crop production,irrigation and nutrient management should be based on a quantitative understanding of water/nutrients interaction,particularly in semi-arid and arid regions.     

Amino acids in grassland soils: Climatic effects on concentrations and chirality

The response of soil organic nitrogen (SON) dynamics to climate may partly be deduced from changes in the concentration and origin of the major N constituents in soil, such as amino acids. In this study, we determined the enantiomers of bound amino acids in 18 native grassland soils (0–10 cm) that were sampled along a transect from central Saskatchewan, Canada, to Southern Texas, USA. Mean annual temperature (MAT) ranged from 0.9 to 23.4 °C and mean annual precipitation (MAP) from 300 to 1308 mm. d-alanine and d-glutamic acid served as markers for the bacterial origin of SON. The d-content of lysine, phenylalanine, and aspartic acid indicated an ageing of the respective SON forms. Deuterium labeling was applied to account for hydrolysis-induced racemization reactions. We found that the concentration of the bacterial biomarkers was weakly but significantly parabolically related to MAT, as previously reported for microbial-derived amino sugars. The age markers d-lysine, d-phenylalanine, and d-aspartic acid comprised 2–15% of the respective l-form. The presence of these compounds demonstrated that the structures that contained these d-enantiomers had survived microbial attack, i.e., these hydrolyzable SON forms were conserved in soil despite a living environment. First estimates indicate that the mean residence time of the lysine-containing organic matter forms extend beyond a century. Within this time-scale we did not find that climate significantly affects the degree of ageing of SON constituents in the studied topsoils.     

Influence of phosphorus limitations on the growth,nutrient partitioning and physiology of mahogany (Swietenia macrophylla King) seedlings

The effects of four rates of phosphorus (P) fertilization (0, 0.56, 5.6 and 56.0 mg l^?1) in soilless medium on the growth and physiology of mahogany seedlings were examined. The greatest response occurred at the 56 mg l^?1 rate, with relatively small differences between other treatments. Biometric parameters increased at the 56 mg l^?1 compared to 0 mg l^?1 rate except root dry mass. Both the concentration and the total content of P and Kjeldahl nitrogen (N) increased in leaves, stems and roots with P application rate. Foliar concentrations of potassium (K), calcium (Ca), magnesium (Mg), manganese (Mn) and sulfur (S) declined, and boron (B) and copper (Cu) increased with P limitations; zinc (Zn) and iron (Fe) were unaffected. Physiological adaptations of mahogany to P limitations include the preferential allocation of carbon (C) to plant roots, and increases in P utilization efficiency, P acquisition efficiency and the concentration of organic acids in xylem fluid. Root phosphatase activity was not influenced by P fertilization.     

Environmental effects on the elemental leaf composition of crassulacean acid metabolism plants

Environmental effects on several CAM plants which bring them in CAM (when plants show diurnal fluctuations in the concn of titratable acid) and out of CAM (when acid concn remain low with no diurnal fluctuation) were studied. Change in photoperiod alone caused the greatest amplitude of the acid fluctuation from 2.6 to 2.7 meq acid/100 g FW in Sedum telephoides. Light intensity affected the K/Ca ratio from a high when in CAM to a low when out of CAM in the 2 species. The plasma emission spectrograph analysis of the leaf tissue grown in the specific environment showed the presence of high levels of Mn, B, Cu, Zn, Na, Al and Si in Sedum telephoides. The elemental analyses of CAM plants showed 1.8 to 9.4% K.     

指数施肥对美国山核桃幼苗生长及叶片养分含量的影响

为探究施肥对美国山核桃幼苗生长和叶片养分状况的影响,以美国山核桃1年生实生苗为试验材料,共设置0 (CK)、100、200、400、600、800 mg/株6个不同的施氮处理,运用指数施肥法研究了6种氮素施肥处理下美国山核桃生长和叶片养分含量的变化。结果表明:美国山核桃幼苗的苗高、地径、生物量随着施氮量的增加均呈现出先增加后减小的趋势,分别在N600处理(600 mg/株)达到最大值,分别为33. 4 cm、5. 08 mm和9. 33 g/株。运用临界浓度法确定出美国山核桃幼苗叶片氮、磷、钾含量的临界值分别为22. 58、1. 89和12. 71 g/kg,最适含量范围分别为22. 58～32. 73、1. 89～3. 15和12. 72～22. 05 g/kg。综合3种养分的最适含量范围,推断出美国山核桃幼苗的最适施氮量为600 mg/株。     

长期施肥对河西绿洲灌漠土作物产量及土壤养分自然供给能力的影响

为提高甘肃河西绿洲粮食高产、稳产、高效生产能力及土壤养分资源管理水平,通过设置于甘肃河西绿洲长达25年(19822~006年)的长期肥料定位试验,研究长期施肥对作物产量及土壤养分供给能力的影响。结果表明:连续25年不施用任何肥料或单施氮肥,会导致农田土壤生产能力严重衰退;氮、磷或氮、磷、钾肥配合施用能使作物持续高产、稳产;随试验年限的延续,磷肥、有机肥增产效应逐渐积累,并表现出良好的渐进性和持续性;钾肥在试验开始后最初6年(19821~987年)无显著增产效应,中期具有一定的增产作用(19881~992年),后期14年(19932~006年)显著增产。土壤磷素自然供给能力随试验年限的延续逐渐减小,而钾素的自然供给能力相对稳定。     

Influence of Quercus ilex trees on herbaceous production and nutrient concentrations in southern PortugalElena Cubera1, 2

In an open woodland in Portugal, the nature of interactions between Quercus ilex trees and herbaceous plants was assessed during 2 years by studying how manipulation of incident solar radiation, water and nutrient supply affect the herbaceous biomass and N, K, P, Ca, Mg, and Mn concentrations. Measurements were carried out in three environments consisting of (1) open grassland, (2) beneath the tree canopy, and (3) under artificial shade. Each of these environments was subjected to two regimes of fertilization and two water levels in a factorial design. The fertilizer treatment consisted of application of no fertilizer or a combination of 200 kg calcium ammonium nitrate ha^–1 (26% N) and 350 kg superphosphate ha^–1 (8% P), while the water‐supply treatment consisted of either no irrigation or irrigation fortnightly from February 1 to April 30. Grasses showed significantly lower nutrient concentrations than forbs. However, nutrient concentrations of the whole herbaceous community were within the recommended ranges for cattle nutrition. A negative effect of shade on herbaceous biomass production was observed. The effect of watering on herbaceous biomass was less prominent than the effect of fertilization, irrespective of the environment, suggesting that Q. ilex does not compete for soil‐water resources with herbaceous biomass in this ecosystem. Fertilization increased total biomass by 106%, 49%, and 97% in the open grassland, beneath the tree canopy, and under artificial shade, respectively. During the first and second year, fertilization increased herbaceous P concentrations by 24% and 83%, respectively, if compared with concentrations obtained at the unfertilized plots. Higher K and Mg concentrations were observed in herbaceous plants beneath the tree canopy than in the open areas, indicating a positive effect of trees on pasture quality. The positive and negative effects of trees on understory forage are discussed.     

碳酸氢根与水肥同层对玉米幼苗生长和吸收养分的影响

把水分(NaHCO3溶液或纯水)供应于底施了铵态或硝态N肥的土层内,以研究HCO3-及水肥供应方式对石灰性土壤上玉米生长及养分吸收的影响。结果表明,在限制灌水量的条件下,在土壤上层供应HCO3-显著抑制根系生长,但在下层供应对生长无明显影响;当施用不同形态N素时,HCO3-对N素吸收并无明显影响;此外,供应HCO3-溶液能明显提高灌水土层的土壤pH。总体来看,在供试条件下,HCO3-对玉米幼苗生长量、根系分布及养分吸收量的影响均较为有限,而后三者主要受施肥灌水层次的影响,即:在土壤上层施肥灌水,幼苗生长量显著降低;而在下层施肥灌水是一种节水节肥的水肥供应方式。但下层施肥灌水不利于植株的直立性。因为下层施肥灌水时根系主要分布在下层,在上层分布数量极少;而上层施肥灌水根系在上下两层中的分布无明显差异;下层施肥灌水的玉米植株,其N、P、K吸收量远高于上层施肥灌水的植株。     

番茄不同生育期遮荫对其干物质分布、产量及叶片养分含量的影响

Pot-grown tomato plants (Lycopersicon esculentum Mill. cv. Maofen) was used to study the effects of three shading levels (0, 75% and 40%) for 8 days on dry matter partitioning, contents of nitrogen (N),phosphorus (P) and potassium (K) in leaves and yield at three growth stages (early flowering (EF), peak flowering (PF) and later flowering (LF)). Shading reduced the dry weight of root and stem tissues at the EF and PF stages, but the 40% shading increased root dry weight and stem dry weight by 43.2% and 21.6%,respectively, at the LF stage. The influence of shading on the dry weight of leaves was very small at most growth stages. Shading had no effects on total leaf N, P and K contents at the EF and PF stages, showing that N, P and K absorption were regulated by the carbon assimilation at these two stages. The leaf N, Pand K contents of 40% shaded plants at the LF stage were significantly increased. There were no obvious differences in leaf N and K contents between 75% and 40% shading treatments, but significant difference in leaf P contents was found between them at the LF stage. Shading significantly enhanced the friit yield of 40% shaded tomato plants at the LF stage, but failed to affect the fruit yield of shaded plants at the EF stage. These showed that tomato could grow well and a better yield could be obtained if some moderate shading (i.e., 40% shading) was applied at the LF stage at s, mmer midday.     

Comparative effects of vesicular-arbuscular mycorrhizal inoculation and phosphorus fertilization on growth and phosphorus uptake of maize (Zea mays L.) and sorghum (Sorghum bicolor L.) plants under drought-stressed conditions

Maize (Zea mays L.) and sorghum (Sorghum bicolor L.) Moench (local variety called Masakwat) plants were grown in a sterilized low-P soil in the greenhouse for 12 weeks. Each plant species was either mycorrhizal with vesicular-arbuscular mycorrhizal (VAM) fungi, non-mycorrhizal but minimally fertilized with soluble P, or non-mycorrhizal but highly fertilized with soluble P. Drought stress was imposed after 4 weeks at weekly intervals. Under unstressed conditions, leaf area, shoot dry weights, xylem pressure, and soil water potentials were similar for VAM and the two non-mycorrhizal P-fertilized treatments but each of the VAM-infected species had a greater total root length. Total P uptake was similar for the maize treatments but higher for VAM than non-mycorrhizal P-fertilized sorghum treatments. Under drought-stressed conditions, the growth parameters and soil water potential were similar for all maize treatments but they were reduced by mycorrhizal inoculation in sorghum. Greater water extraction occurred in drought-stressed mycorrhizal sorghum. In both plant species, total P uptake and P uptake per unit root length (including unstressed species) were significantly enhanced in non-mycorrhizal P-fertilized treatments compared with the mycorrhizal treatment. Except for the root dry weight of sorghum plants, there were no differences in the growth parameters and P uptake between minimally and highly P-fertilized non-mycorrhizal treatments for either maize or sorghum. The increased total root length in drought-stressed mycorrhizal sorghum plants and the similar infected root lengths in unstressed and drought-stressed sorghum plants may have caused high C partitioning to drought-stressed mycorrhizal roots and therefore caused the reduced growth parameters in mycorrhizal plants compared to the non-mycorrhizal P-fertilized counterparts. The results indicate that P fertilization in addition to mycorrhizal inoculation may improve the drought tolerance of maize and sorghum plants.     

Increasing root and leaf growth and yield in Mg‐deficient faba beans (Vicia faba) by MgSO4 foliar fertilization

Magnesium (Mg) deficiency reduces yield and quality of crops as Mg is involved in carbohydrate and protein anabolism. Foliar application of MgSO₄ represents a means of ameliorating the nutritional status of crops growing under conditions of deficiency. Foliar Mg application has been demonstrated to increase the chlorophyll concentration and vegetative yield of plants. However, in crop plants used for seed production, the limited number of available studies provides only conflicting results in terms of the efficiency of Mg leaf application on yield and quality. We have examined the effect of increasing Mg foliar application rates on differentially developed leaves and leaf stages with regards to Mg concentration, chlorophyll concentration and biomass formation. Our data reveal that in order to obtain significant effects MgSO₄ concentrations in the spraying solution should be higher than 50 mM, as lower concentrations did not lead to significant changes in the vegetative or generative material. Positive effects of the foliar application on chlorophyll concentration and leaf area were only measured in leaves treated with 200 mM foliar MgSO₄. The application of Mg did not affect the parameters chlorophyll, ion concentration and leaf area in the newly developing leaves, but it had an important influence with regard to yield traits, especially on the formation of pods. The quality of the seeds with regard to the protein concentration was reduced in response to the magnesium deficiency treatment, but the application of foliar magnesium prevented a significant loss of protein.     

根际促生菌Bacillus subtilisY-IVI在香草兰上的应用效果研究

【目的】香草兰为多年生热带经济作物,随着种植年限的增加,植株长势弱,土壤有益微生物减少,土壤微生物区系失衡,严重制约了香草兰产业的可持续发展。枯草芽孢杆菌作为一种根际促生菌,被广泛应用于促进作物生长,改善土壤微生物环境。本文将枯草芽孢杆菌Y-IVI接种在有机肥上,生产了生物有机肥,并就该生物有机肥对香草兰生长的影响进行了研究。【方法】采用温室盆栽试验,调查施用根际促生菌枯草芽孢杆菌(Bacillus subtilis)Y-IVI及其经固体发酵制得的微生物有机肥料(Y-IVI:3×108cfu/g)后,香草兰植株地上部及根系的生长状况,采用选择性培养基方法研究了Y-IVI在香草兰根际土壤中的定殖能力及对香草兰根茎腐病致病菌-尖孢镰刀菌数量的影响。【结果】施用Y-IVI及BIO 4个月后,香草兰根际土壤Y-IVI数量仍可达到106cfu/g土,二者无显著差异,在处理OF和对照中未检测到菌株Y-IVI。施用生物有机肥香草兰地上部干重和根系干重均显著高于对照,分别增加了63.1%和59.4%,与不接种Y-IVI的有机肥处理(OF)相比,地上部干重显著提高了43.2%,根系干重提高了18%,差异不显著;施用Y-IVI菌液的处理植株地上部干重和根系干重均高于对照,但无显著性差异;处理BIO根系直径、根系表面积和总体积与对照相比分别增加了41.9%、88.9%和80.4%,均显著高于对照,总根长与对照差异不显著;处理BIO根系表面积和总体积与有机肥处理OF相比分别显著增加了41.9%和30.8%,根系直径与OF相比增加了10.1%,差异不显著;处理Y-IVI根系直径与对照相比显著增加了25.5%,但根系表面积和总体积与对照差异不显著;与对照相比,施用BIO及Y-IVI的处理根际土壤尖孢镰刀菌数量分别明显降低了52.2%和41.8%,施用有机肥OF的处理降低了10%,差异不显著。【结论】Y-IVI可稳定定殖于香草兰根际土壤对其生长起有益作用,含促生菌Y-IVI的生物有机肥料比单独使用促生菌菌液可以更有效地减少根际土壤中尖孢镰刀菌数量,降低连作生物障碍。施用生物有机肥料比施用化肥和有机肥更有效地促进香草兰地上部及根系生长,因此,施用由根际促生菌枯草芽孢杆菌(Bacillus subtilis)Y-IVI制得的生物有机肥是解决香草兰连作生物障碍和提高收益的有效手段。     

施肥对酸性菜园土壤莴笋硝酸盐和叶片养分形态的效应

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。     

Influence of soil humic substances and herbicides on the growth of pea (Pisum sativum L.) in nutrient solution 1

No morphological and length modifications of the root and shoot systems are apparent in pea (Pisum sativum L.) plants of three varieties grown in the presence of 100 mg/L humic acid or fulvic acid or 20 mg/L linuron [3‐(3,4‐dichlorophenyl)‐l‐methoxy‐l‐methylurea] or ametryne [2‐ethylamino‐4‐iso‐propylamino‐6‐methylthio‐1,3,5‐triazine]. A combination of humic substance and herbicide at these concentrations produces in all pea varieties a differentiated and marked reduction in root length and large morphological alterations of roots. Statistical analysis of data show that differentiated and highly significant or significant effects are produced on the shoot and root dry weight by either the humic substance or herbicide alone, and by any combination of two or three factors considered (variety, humic substance, herbicide).     

施用氮、磷、钾对密植梨枣生长与叶片养分季节动态的影响

以山地梨枣(Zizyphus jujuba Mill. cv. Lizao)为试验材料,采用野外试验与室内分析,研究了黄土丘陵区山地滴灌下施用氮磷钾对矮化密植梨枣叶片8种营养元素（N、P、K、Ca、Mg、Fe、Mn、Zn）季节动态变化规律以及施肥对梨枣生长,产量及品质的影响。结果表明:不同生育期梨枣叶片养分含量变化具有一定的规律性。开花坐果期（5月上旬至7月上旬）,叶片N、P、K含量处较高水平,Mg、Fe、Mn、Zn含量处于较低水平。果实膨大期（7月中下旬到8月下旬）,叶片N、P有一个相对稳定的含量,K快速下降,而Fe、Mn、Zn含量上升。果实成熟期（9月初到10月初）,叶片N、P、K含量下降,Mg、Fe、Mn、Zn则是缓慢上升并趋于稳定。叶片N、P、K、Mn含量之间呈正相关,Ca、Mg、Fe、Zn含量之间也呈正相关关系,叶片N、P、K之间达极显著正相关关系,而N、P、K与Ca、Mg、Fe、Zn含量之间呈负相关关系。施氮肥可促进前期枣树新枝生长和枣果膨大;施磷肥可提高产量,达到33210 kg/hm2;施钾肥可明显提高枣果品质。     

氮磷肥配合施用对桑树生长和桑叶产量的影响

在大田条件下研究了不同氮、磷肥施用水平对桑树生长和桑叶产量的影响。结果表明,氮磷肥适合用量配比能明显促进桑树生长,桑树每株枝条数、枝条长和枝条基部径围及桑叶百叶重均明显随氮肥和磷肥用量提高而增加。结果显示在氮肥用量为450kg/hm2时,N∶P2O5施用比例为3∶1时桑叶产量最高,在各种氮磷肥用量组合中,N450P150处理的桑叶产量比其他处理平均高5139kg/hm2,增产率达22.4%。试验结果表明,氮、磷肥对桑叶增产效果有互促作用,即高量氮肥施用需要有足够的磷肥施用才能充分发挥其增产效果,反之亦然。