Nutrients transport through variably structured soils

Abstract

Contribution of sesbania green manure, rice straw, and FYM (farm yard manure) was studied along with that of urea and A/SO₄ (ammonium sulphate) for the cultivation of lowland rice and for the residual soil fertility. The results revealed that A/SO₄ application resulted in a larger number of productive tillers, higher straw production, and higher grain yield compared to urea. Among the organic manures, sesbania green manure and FYM exerted almost similar effects on the number of productive tillers and paddy yield while the yield increase compared to the incorporation of rice straw. A similar affect of these organic manures on nitrogen uptake by rice straw, grain, and straw + grain was observed. Additional uptake of N due to the application of sesbania green manure, FYM and rice straw amounted to 15, 13, and 2.85 kg ha^?1, respectively. Residual N fertility was the highest when of sesbania green manure was applied followed by FYM and rice straw. Residual P fertility was higher in the case of FYM than other treatments whereas the residual K fertility was the highest in the case of rice straw incorporation.     

Amelioration of saline‐sodic soils with organic matter and their use for wheat growth

Abstract

Few reports highlight the effect of organic matter in improving the properties of saline soils. A laboratory study was conducted to determine the effect of adding farm yard manure (manure), Egyptian clover hay (clover hay), and wheat straw, at 1 and 3% of soil weight on water stability of soil aggregates (WSA), water‐holding capacity (WHC), pH, and electrical conductivity of soil extract (ECe) of a normal, saline, and saline sodic soil. After 90 and 180 days, WSA and WHC increased, while pH and ECe decreased. Soil properties improved most by adding 3% manure to all the soils. Wheat grown in these soils indicated significant differences for various growth and yield variables, especially the root growth, number and area of green leaves, and grain yield. Organic matter added to these soils increased WSA and WHC and decreased pH and Ece. The WHC had no correlation with pH, but was negatively correlated with Ece. Increased WSA caused the leaching of excess ions and reduced their toxicity, while enhanced WHC increased the availability of water to the roots and promoted growth. It is concluded that manure ameliorated salt affected soils and promoted wheat growth better than clover hay and wheat straw.     

INTEGRATED EFFECT OF INORGANIC AND ORGANIC NITROGEN SOURCES ON SOIL FERTILITY AND PRODUCTIVITY OF MAIZE

The present study was designed to assess the effect of organic materials, i.e., farm yard manure (FYM), poultry manure (PM) and sugar cane filter cake (FC) along with mineral nitrogen on yield and soil organic fertility. Our results indicated that among sole nitrogen (N) sources, highest grain yield was recorded from poultry manure. In the case of integrated N sources, maximum grain yield was obtained from 25% poultry manure + 75% mineral N source. Grain ear^?1 and 1000 grain weight was highest with the application of poultry manure among sole N sources. Highest grain ear^?1 and 1000 grain weight was observed from 25% poultry manure + 75% mineral N source. Application of poultry manure as sole N sources resulted maximum increase in soil total N and organic matter when compared with other sole N sources. Among N sources applied in different proportion, maximum total soil N was recorded from 25% poultry manure + 75% mineral N. We concluded from these experiments that integrated application of N sources in different proportion greatly improves the N economy and enhance crop productivity in low N soils.     

不同肥料结构对水稻群体干物质生产及养分吸收分配的影响

大田试验研究结果表明:单施化肥的水稻植株干物质积累和养分吸收主要集中于生长中前期。而有机无机肥配施,特别是化肥与厩肥配合施用有利于水稻植株在中后期,尤其是灌浆期对养分吸收和干物质的积累,其中以植株对磷的吸收比例在各肥料结构间差异最大(p<0.01)。有机无机肥配施还可促进水稻植株养分向籽粒中转移和分配。从而明显增加了水稻结实率和千粒重,进而大大提高了水稻籽粒产量(p<0.05或p<0.01)。     

Green manure production of Azolla microphylla and Sesbania rostrata and their long-term effects on rice yields and soil fertility

Summary Azolla spp. and Sesbania spp. can be used as green manure crops for wetland rice. A long-term experiment was started in 1985 to determine the effects of organic and urea fertilizers on wetland rice yields and soil fertility. Results of 10 rice croppings are reported. Azolla sp. was grown for 1 month and then incorporated before transplanting the rice and 3–4 weeks after transplanting the rice. Sesbania rostrata was grown for 7–9 weeks and incorporated only before transplanting the rice. Sesbania sp. grew more poorly before dry season rice than before wet season rice. Aeschynomene afraspera, which was used in one dry season rice trial, produced a larger biomass than the Sesbania sp. The quantity of N produced by the Azolla sp. ranged from 70 to 110 kg N ha^-1. The Sesbania sp. produced 55–90 kg N ha^-1 in 46–62 days. Rice grain yield increases in response to the green manure were 1.8–3.9 t ha^-1, similar to or higher than that obtained in response to the application of 60 kg N ha^-1 as urea. Grain production per unit weight of absorbed N was lower in the green manure treatments than in the urea treatment. Without N fertilizer, N uptake by rice decreased as the number of rice crops increased. For similar N recoveries, Sesbania sp. required a lower N concentration than the Azolla sp. did. Continuous application of the green manure increased the organic N content in soil on a dry weight basis, but not on a area basis, because the application of green manure decreased soil bulk density. Residual effects in the grain yield and N uptake of rice after nine rice crops were found with a continuous application of green manure but not urea.     

施肥对黑土农田土壤全碳、微生物量碳及土壤酶活性的影响

通过对吉林省德惠市中层黑土农田6年定位施肥试验研究表明,施有机肥、秸秆还田+有机肥、秸秆还田+化肥和半量有机肥+化肥处理较单施化肥、未施肥和休闲裸地处理提高了土壤全碳、全氮含量,降低了土壤碳氮比。对玉米播前、抽穗期和收获期土壤微生物量碳测定表明,抽穗期土壤微生物量碳最高,处理间差异显著,且不同采样时期的土壤微生物量碳与土壤全碳含量之间呈高度正相关。对土壤酶活性研究表明,施有机肥较单施化肥、未施肥和休闲裸地处理显著地提高了土壤脲酶、转化酶和过氧化氢酶活性;单施化肥处理对土壤转化酶和过氧化氢酶具有一定的抑制作用;而有机肥、秸秆和化肥之间的配合施用处理的土壤酶活性表现不一致。相关分析显示土壤微生物量碳与土壤酶活性呈显著或极显著正相关。该研究结果表明,长期向中层黑土农田增施有机物,不仅提高了土壤全碳和土壤微生物量碳的含量,而且也提高土壤酶活性,有利于提高土壤养分转化效率,可使黑土质量向健康方向发展。     

Growth and Nitrogen Uptake in Sorghum Plants Manured with Leucaena leucocephala Leaves as Affected by Nitrogen Rate and Time of Application

A pot experiment was conducted to determine the effect of four rates of nitrogen (N) in the form of leucaena leaves and the time of application on the performance of sorghum plants using the ¹⁵N isotopic dilution technique. Results showed that leucaena green manure (LGM) increased dry matter and N yield of sorghum. Nitrogen recoveries of LGM ranged between 23 and 47%. An additional beneficial effect of LGM was attributed to the enhancement of soil N uptake. The best timing of LGM incorporation for obtaining more N derived from LGM, less soil N uptake, and greater dry matter and N in sorghum leaves seemed to be at planting. However, the appropriate timing and rate of LGM to obtain greater dry matter and N yield in panicles, as well as in the whole plant of sorghum, appeared to be at 30 days before planting, particularly a rate of 120 kg N ha^?1.     

Effects of liming,green manuring,and phosphate addition on electrochemical attributes of an Oxisol from central Brazil

Abstract

Highly weathered tropical soils are characterized by having a predominantly variable charge. Many management practices commonly used in the exploitation of these soils (e.g., liming, phosphate application, and manuring) are known to modify their electrical charge and the sorption/desorption behavior of cations and anions. This process is, at least, partially governed by the charges existing in the soil system. Available information on this subject comes mainly from short‐term laboratory and greenhouse experiments. There is a lack of data regarding the cumulative and long‐term effects of those practices used at farm‐scale levels and on the dynamics and availability of nutrients to the plants under field conditions. In the present work, changes in some electrochemical attributes of a variable charge soil (Oxisol) were studied, as influenced by treatments with phosphate + green manure (Cajanus cajan), phosphate + lime, and phosphate + lime + green manure, applied during a six‐year period. In this period, rice, bean, wheat, or corn, were grown in seventeen successive crops. Phosphate (total 334 ppm P) and phosphate + lime (total 5.5 t ha^‐1) were shown to increase net electric charge and soil cation exchange capacity (CEC) at the field pH, and not to affect zero point of charge (ZPC), CEC at pH 7.0, or anion exchange capacity (AEC) of the soil at the field pH. The effects of phosphate + lime were more pronounced than those of phosphate alone. Green manure (total 16 t ha^‐1 dry matter), associated to crop residues and phosphate or phosphate + lime, did not influence electrochemical properties.     

有机物料与化肥配施提高黄泥田水稻产量和土壤肥力

农业有机物料具有资源化再利用的特点,与化肥配施既可以保证作物产量,也可以提升地力。为了建立最适宜的南方低产黄泥田培肥模式,该文在浙江金衢盆地开展3年田间试验研究化肥与不同有机物料(菇渣、紫云英、牛粪和秸秆)配施对水稻产量和土壤肥力的影响。结果表明:1)有机物料与化肥配施可以显著提高水稻产量,化肥+菇渣、化肥+紫云英、化肥+牛粪和化肥+秸秆处理下,水稻三年的平均产量分别比单施化肥提高了9.7%、9.5%、12.3%和9.5%;2)有机物料与化肥配合施用,土壤有机质、土壤养分(全氮、有效磷、速效钾和CEC)及土壤容重较单施化肥处理有一定程度的改善,其中,化肥+牛粪效果最明显,有机质质量分数提高了12.5%,土壤有效磷质量分数提高了37.7%,CEC提高了16.1%;3)与单施化肥相比,化肥+菇渣、化肥+牛粪处理下5 mm机械稳定性大团聚体分别提高了10.4%和6.7%,各配施处理均显著降低了团聚体破坏率。总得来讲,连续三年有机物料与化肥配施较单施化肥处理提高了水稻产量、改善了土壤肥力状况、增加了土壤团聚体稳定性,其中又以牛粪与化肥配合施用效果最佳。     

Combined Effect of Poultry Manure and Soil Mulching on Soil Properties,Physiological Responses,Yields and Water-use Efficiencies of Sorghum Plants under Water Stress

ABSTRACT

The present investigation was planned to determine the effect of deficit irrigation, mulching and poultry manure application on sorghum grain, forage yield and water-use efficiencies. Two field experiments were conducted during 2016 and 2017 growing seasons at Demo farm, Fayoum, Egypt. Eighteen treatments comprising of two rates of rice straw as soil mulching (SM; zero and 10 ton per hectare), three irrigation treatments (I_100% = 100%, I_85% = 85% and I_70% = 70% of crop evapotranspiration (ETc) and three poultry manure (PM) levels (0, 24 and 36 ton per hectare) were studied under controlled surface irrigation system. Sorghum growth attributes (plant height, stem diameter, leave area), grain and forage yield, water-use efficiencies (G-WUE and F-WUE) were significantly (p < .05) affected by irrigation quantity and both soil mulch and poultry manure application. Poultry manure resulted in a significant decrease in soil bulk density, electrical conductivity (ECe), soil pH, hydraulic conductivity and total porosity, useful pores, and water holding pores were increased. The results showed that underwater scarcity, application of (I₈₅ × PM₃₆× SM₁₀) treatment was found to be favorable to save 15% of the applied irrigation water as compared to I₁₀₀, at the time produced the same sorghum yields.     

冬种绿肥和稻草全量还田对单季稻田土壤理化性质的影响

采用田间定位试验,研究了冬闲期种植绿肥和稻草全量还田对江汉平原单季稻田土壤理化性质和水稻产量的影响。试验设置稻草不还田水稻不施肥(CK)、稻草不还田单施化肥(NPK)、稻草原位焚烧还田+化肥(RSB+NPK)、稻草全量还田+化肥(RSM+NPK)、稻草不还田单独种植绿肥+化肥(GM+NPK)以及稻草全量还田+种植绿肥+化肥(RSM+GM+NPK),共6个处理。结果表明,与不还田的CK及NPK处理相比,RSM+NPK、GM+NPK和RSM+GM+NPK处理模式均有利于改善土壤物理性状和提高耕层土壤养分及有机质含量,其中多以RSM+GM+NPK处理增幅最大。RSB+NPK处理较CK处理显著提高土壤pH值、土壤有效磷和速效钾含量,但对土壤有机质、全氮和碱解氮含量影响不大。GM+NPK处理与RSM+GM+NPK处理稻谷产量近似,分别较NPK处理显著增加6.9%~11.7%和6.0%~13.4%,3年平均增加9.1%和8.7%,而RSM+NPK和RSB+NPK处理的稻谷产量3年里与NPK处理无显著差异。综合考虑,在江汉平原单季稻作条件下,以冬闲期稻草条带覆盖还田与种植绿肥配合还田为宜,可以改善土壤理化性质,显著提高水稻产量。     

Effects of different land use types on infiltration capacity in a catchment in the highlands of Ethiopia

Infiltration capacity is an important variable for understanding and predicting a range of soil processes. This study investigated for different slope positions the effects of forest conversion to cultivation and grazing on soil infiltration capacity. Infiltration capacity was measured in the field in each land use type using a double‐ring infiltrometer. A total of 108 soil samples (3 slope positions × 3 land use types × 4 soil profiles × 3 soil depths) were collected to determine the variables that affect infiltration capacity viz. particle size distribution, organic carbon content, dry bulk density and soil moisture content. The results showed that in the cultivated and grazed land compared with forest, infiltration capacity and soil moisture content were 70 and 45% smaller respectively, and dry bulk density was 13–20% larger. Changes in soil structure caused by surface soil compaction because of tillage and animal trampling coupled with a smaller soil organic carbon content, are likely to be the principal factors causing the decline in infiltration capacity and soil moisture content after conversion of forest to cultivation and grazing.     

Einfluss differenzierter Stickstoffdüngung auf Kornertrag und Backqualität von Winterweizen: (Effect of different nitrogen fertilization on yield and bread-making quality of winter wheat)

Abstract

In the “International Long-term Organic Nitrogen Fertilization Experiment” (IOSDV) the organic and mineral fertilization showed a distinct influence on yield formation and quality parameters of winter wheat, though modified by annual weather conditions. Grain yield was affected by annual weather conditions in the first place, followed by mineral N-fertilization and organic fertilization respectively. This result was due to soil conditions at the experimental site. Dry periods during the stages of spikelet formation and flowering formation, which were caused by water deficiency, reduced the yield components strongly. The yield optimum was reached at the level of 110 and 160 kg ha^?1 mineral N on the sandy soil at the location of Berlin-Dahlem. The highest nitrogen level caused non effective or slight yield depressions, especially in the “green, straw and sugar beet leaf manure” fertilization system. Organic N-fertilization (farm yard manure, straw, green manure and beet leaf fertilization) led to significant increases of winter wheat yield in the course of which biggest differences were observed when combined mineral N-fertilization was missing. The bread-making quality of B-wheat variety Flair was primarily dependent on mineral N-fertilization. Necessary values for bread wheat were predominantly obtained only, when mineral N-fertilization rates of 110?–?160 kg ha^?1 were applied. Organic N-fertilization?–?especially farmyard manure?–?improved the bread-making quality of wheat as well in treatments without mineral-N as in combination with mineral-N-fertilization.     

Effects of Green Manures and Zinc Fertilizer Sources on DTPA-Extractable Zinc in Soil and Zinc Content in Basmati Rice Plants at Different Growth Stages

Rice is very sensitive to low zinc(Zn) supply in submerged paddy soils and Zn deficiency is one of the major limiting factors in determining rice production in India. A field experiment was conducted during the summer-rainy seasons of 2009 and 2010 at the research farm of the Indian Agricultural Research Institute, New Delhi, to determine the effects of summer green manure crops and Zn fertilizers on diethylenetriaminepentaacetic acid(DTPA)-extractable(available) Zn concentration in soil and total Zn content in Basmati rice cultivar Pusa Basmati 1 at periodic intervals. Summer green manure crops included Sesbania aculeata(Dhaincha),Crotalaria juncea(Sunhemp), and Vigna unguiculata(Cowpea) and the Zn fertilizers used were ethylenediaminetetraacetic acid(EDTA)-chelated Zn, ZnSO_4·7H_2O, ZnSO_4·H_2O, ZnO, and ZnSO_4·7H_2O + ZnO. Beneficial effects of summer green manure crops and Zn fertilizers on DTPA-extractable Zn concentration in soil and total Zn content in dry matter of Basmati rice at periodic intervals were observed, with significant increases in all the determined parameters, in comparison with those in the control(no Zn application or summer fallow). The rate of increase varied among summer green manure crops and Zn fertilizers during both years. Among the summer green manures, incorporation of S. aculeata led to a significant increase in mean Zn content in Basmati rice grain and straw when compared with C. juncea, V. unguiculata, and summer fallow treatments. Among the Zn fertilizers, significant increases in Zn content in Basmati rice dry matter and DTPA-extractable Zn concentration in soil during various growth stages of the plant were recorded with EDTA-chelated Zn application, followed by the application of ZnSO_4·7H_2O, ZnSO_4·H_2O, ZnSO_4·7H_2O + ZnO, ZnO,and no Zn. The highest mean Zn content in Basmati rice grain and straw was recorded with EDTA-chelated Zn application in 2009 and 2010, respectively. The application of ZnSO_4·7H_2O was the second best treatment after EDTA-chelated Zn; however, it was statistically inferior to EDTA-chelated Zn. The lowest values were recorded with the control(no Zn application) during both years of study. The amount of Zn concentration in soil was found to be significantly positively correlated with the Zn content in Basmati rice dry matter during both years. Significantly higher levels of residual fertility in soil after the harvest of Basmati rice were observed with application of EDTA-chelated Zn and incorporation of S. aculeata when compared with those of other Zn sources and summer green manures.     

Precision Manure Management on Site-Specific Management Zones: Topsoil Quality and Environmental Impact

Maintenance and improvement of soil quality across spatially variable soils in continuous cropping systems are critical to sustaining agricultural productivity and environmental quality. The objectives of this project were (i) to study the effects of variable-rate application of animal manure on selected topsoil quality parameters across site-specific management zones (MZs) and (ii) to evaluate the variable-rate applications of manure using risk-assessment tools of nitrogen (N) leaching and phosphorus (P) runoff indices to understand its impact on environmental quality. This study was conducted in northeastern Colorado on continuous and furrow-irrigated maize fields. Experimental strips, 4.5 m wide and 540 m long, spanned across all MZs with treatments nested within MZs in the field. Variable rates of dairy and beef feedlot manure applied on irrigated and dryland fields respectively ranged from 0 to 67 Mg ha^?1. Surface soil quality parameters evaluated before and after this study included bulk density, organic matter, water-holding capacity, electrical conductivity, and particle-size analysis. Results indicate that animal manure applications of 44 and 67 Mg ha^?1 significantly (P ≤ 0.05) increased soil organic matter and decreased bulk density of low- and medium-productivity-level MZs and had no significant impact on surface soil organic matter and bulk density of the high-productivity-level MZs. Animal manure significantly (P ≤ 0.05) increased surface soil water-holding capacity and soil electrical conductivity across zones; however, the maximum manure-induced soil EC was 1.0 dS m^?1, which was below levels regarded as potentially harmful for maize production. Soil texture was not affected by animal manure applications. Colorado N leaching and P index indicated no environmental hazard associated with variable rate application of animal manure across MZs. This study indicates that variable-rate application of animal manure across MZs has potential to improve or maintain soil quality parameters over time without impairing the environment.     

Effect of Incorporation of Crop Residues on a Maize–Groundnut Sequence in the Humid Tropics. II. Soil Physical and Chemical Properties

Abstract

A two‐year study (1997–1999) was conducted on a sandy clay loam (Typic Paleudult) at the experimental farm of the Universiti Putra to determine the effects of application of crop residues on changes of some soil properties in a maize (Zea mays L.)–groundnut (Arachis hypogaea) crop rotation system. Five crops of a rotation of sweet corn–groundnut–sweet corn–groundnut–sweet corn were sown with three treatments: recommended inorganic fertilizer [nitrogen (N), phosphorus (P), and potassium (K)] with crop residue (T1), recommended inorganic fertilizer without crop residues (T2) or one‐half of the recommended inorganic fertilizer with crop residues combined with 10 t ha^?1 of chicken manure (T3). Soil organic carbon (OC), soil water content and soil bulk density were not significantly changed. Application of crop residues for two years increased cation exchange capacity (CEC) whereas supplementing crop residues with CM had significantly increased soil pH of the topsoil. Phosphorous in manure treatment had moved down the soil profile, which might cause eutriphication of under ground water, particularly during the rainy season. Based on this work, incorporation of crop residues could be a beneficial practice for improving the fertility of acid soils.     

灰漠土长期定位施肥对小麦品质和产量的影响

新疆灰漠土不同施肥制度的12年长期定位试验结果表明,N、NP、NK、NPK处理小麦某些品质指标较CK有不同程度的改善;长期不施氮肥(PK处理),小麦子粒的蛋白质含量、总氨基酸和必需氨基酸含量、面粉品质和面团品质中的多数指标明显低于CK和长期施用氮肥的处理,灰分含量增加;有机无机常量配施(NPK+M)小麦面粉与面团品质中的多数指标优于单施无机肥(N、NP、NK、PK、NPK)和CK处理。与CK相比,秸秆还田(NPK+S)处理的小麦千粒重、面团抗延伸性略有提高,其它品质指标则有不同程度的下降。生产中,N、P、K化肥与有机肥合理配合施用对培肥土壤、提高小麦产量和改善品质具有重要作用。     

Über Strohdüngung auf sandigen Ackerböden

An experiment was carried out during the year 1990–91 and 1991–92 at the University farm, Mohanpur in order to study the response of manurial residue to wheat crop at different doses of fertilizer under rice‐wheat cropping sequence. Incorporation of farm yard manure @ 10 t/ha to winter paddy showed significant effect on succeeding crop, wheat as compared to only fertilizer use in both the crops. Grain yield, and number of effective tillers/m² of wheat were significantly influenced by manurial residue and attained their highest values at 100 per cent recommended dose of fertilizer with moderate soil health. Manurial residue showed higher rate of increment in grain yield of wheat at 75 per cent dose of fertilizer but leaving the soil with poor fertility condition.     

绿肥对粘质淤土及其复合胶体性质的影响

在我国黄淮平原地区,分布有大面积粘质淤土.这类土壤底子虽好,但缺少有机质,土质粘重,板实,耕性差,适耕期短,容易跑墒,产量较低,土壤潜在肥力不易充分发挥.大力发展绿肥是解决有机肥源和改良土壤性质,夺取粮食大面积稳产高产的重要途径,是用地养地的好方法,是快速改良粘质淤土的有效措施.     

Estimation of turnover and equilibrium of soil organic matter using a mathematical approach

The methods based on N uptake of aerial-plants, soil organic matter （SOM） dynamics, Jenny＇s equation, and actual measurement of long-term field experiments in Jiaxing, Quzhou, Huangyan and Hangzhou of Zhejiang Province, China were used to determine the organic mineralization rate being helpful in estimating the organic requirement for SOM equilibrium. The results showed that the estimated mineralization ratios of SOM for Jiaxing and Quzhou were, respectively, 0.0404 and 0.0508 based on N uptake of aerial-plants in non-fertilized plots; 0.0405 and 0.012 using SOM dynamics in non-fertilized plots; and 0.0413 and 0.0513 using the actual investigated data and Jenny＇s equation. With Jenny＇s equation, soil organic C balance in manure ＋ N-P-K plots was estimated at nearly 28.8 g kg^-1 for Jiaxing and 32.4 g kg^-1 for Quzhou with predicted SOM linearly related to the actual investigated values （r^2 = 0.9640 for Jiaxing and 0.8541 for Quzhou）. To maintain the SOM balance in the non-fertilized plots the recommended rate of organic materials was 3 000-6 600 kg ha^-1, and the relevant rates of farm yard manure （FYM） in the manure and N-P-K plots were estimated at 3 375 （dry） and 17670 kg ha^-1 （wet） for Jiaxing, 1845 （dry） and 6090 kg ha^-1 （wet） for Quzhou.