施肥对土壤潜在养分(磷和钾)和作物产量的影响

通过 5年的田间定位试验 ,研究辽河平原土壤磷钾的自然释放速度和不同施肥制度下的肥料效应以及建立宏大养分库的过程。结果表明 ,N、P肥在下辽河平原对玉米具有极好的增产作用 ,但K肥对玉米暂时不表现增产效果 ;对大豆而言 ,P、K肥效果均很明显。不同施肥处理作物吸收养分之间的差异与产量之间的差异相似 ,但其幅度不同 ,前者明显大于后者 ,表明籽实产量的增长与养分消耗不是等比例的。豆茬土壤的供P状况要优于玉米茬 ;随着施肥年限的延长 ,残留肥料P、K进入速效养分库的量减少 ,不同元素其表现也不同。     

Effect of soil temperature on seedling emergence in different crops

Summary Seedling emergence in different crops was studied in the soil temperature range of 5°C to 45°C. In peas and turnips seedling emergence stopped at a soil temperature of 35°C and in other crops at 45°C. The minimum temperature for seedling emergence was above 10°C in case of cotton, sorghum, rice, maize and musk melon and above 15°C in case of squash, bottle gourd and okra. Winter crops like wheat, gram, peas, and turnips emerged at 5°C but the percent emergence was low. The optimum range for seedling emergence was narrower for vegetable crops as compared with cereals.     

秸秆还田和施肥对砂姜黑土理化性质及小麦-玉米产量的影响

通过安徽省蒙城县砂姜黑土上连续4a的冬小麦-夏玉米连作长期定位试验,研究了秸秆还田配合施用不同量氮肥对土壤理化性质及作物产量的影响。结果表明,秸秆还田可降低土壤容重2.5%—9.2%,提高含水量8.2%—28.5%和表层土壤贮水量4.1%—19.9%;增加土壤总孔隙度1.1%—8.9%、毛管孔隙度18.9%—41.0%,非毛管孔隙度降低6.4%—38.8%,土壤毛管孔隙度占土壤总孔隙度的比例增加。秸秆还田所有处理耕层的土壤硝态氮含量高于秸秆移除处理,施氮540、630、720 kg N hm-2a-1时,秸秆还田处理的硝态氮含量显著高于秸秆移除,而铵态氮含量无明显变化规律。无论秸秆还田还是秸秆移除,耕层土壤的硝态氮含量随氮肥用量的增加呈指数趋势增加,硝态氮含量与施氮量的相关性秸秆移除处理高于秸秆还田处理;秸秆还田处理的铵态氮含量随施氮量增加成指数趋势增加,而秸秆移除处理呈指数趋势减小,相关性均不显著。秸秆还田条件下,小麦和玉米获得高产的年氮肥用量分别为630、696 kg N hm-2a-1,秸秆移除为579、627 kg N hm-2a-1。经作用力分析,秸秆还田是影响土壤物理性质的最重要因素,作物产量受秸秆还田和施氮量的影响,但氮肥水平大于秸秆还田。     

耕作措施对土壤水热特性和微生物生物量碳的影响

通过山西寿阳设置的8a田间定位试验,比较了全量秸秆还田、免耕覆盖和常规耕作3种耕作措施下土壤含水量、温度及土壤微生物生物量碳变化.结果表明:免耕覆盖与全量还田处理显著提高土壤含水量,与常规耕作相比表层土壤体积含水量在玉米苗期、拔节期、灌浆期和成熟期分别高出18％、22％、29％、21％和3％、10％、12％、13％,具有保水保墒的作用.在苗期不同耕作措施对土壤温度的影响达到显著水平,5 cm处免耕覆盖、全量还田与常规耕作处理土壤温度依次为:18.12、18.76和19.44℃,免耕覆盖和全量还田处理平均温度比常规耕作分别低1.32℃和0.69℃.土壤微生物量碳在整个生育期动态变化是首先迅速上升在玉米生育高峰期(拔节期)达到最高峰,然后开始下降,成熟期趋于平缓.免耕覆盖与全量还田处理下玉米各生育期土壤表层微生物量碳显著高于常规耕作,在苗期、拔节期、灌浆期和成熟期分别比常规耕作高出70％、40％、85％和30％和10％、20％、15％和15％.土壤微生物量碳与土壤温度和土壤含水量相关和极相关.     

秸秆还田和施氮对农田土壤呼吸的影响

2003年10月至2004年9月期间在华北平原冬小麦-玉米轮作的高产粮区开展了土壤温度、秸秆还田和施氮对农田土壤呼吸影响的研究。土壤类型是砂姜黑土。试验共设6个处理,分别是N 1、N 1 W、N 2 W、N 3 W N 1 W O和N 2 W M,其中N 1、N 2和N 3表示3个施氮水平(纯N计,下同),分别是200 kg hm-2、400 kg hm-2和600 kg hm-2,W表示小麦秸秆还田,M表示玉米秸秆的1/3还田,O表示施用有机肥(每年施用鸡粪30 m3hm-2)。土壤呼吸采用碱液吸收法测定,每个处理6次重复,结果表明:(1)土壤呼吸季节动态明显,夏季高冬季低,土壤呼吸排放速率与5cm深度地温线性拟合最好(R2=0.63~0.74,p<0.001),而与地表温度线性拟合最差。各处理土壤呼吸的年通量在5650~7061 kg.hm-2(纯C计,下同),随着秸秆还田量的增加,土壤呼吸通量显著增加(p=0.05),随着施氮量的增加土壤呼吸通量也增加,但只有施氮量相差400 kg hm-2时,土壤呼吸通量差异显著(p=0.05),施用有机肥的处理土壤呼吸通量最高,有机肥施用后1~2个月,有机肥快速分解,表现为高的土壤呼吸通量。由土壤呼吸与5cm深度地温指数拟合方程求得的Q10值在1.86~2.26之间。     

The influence of crop management on the water balance of lupin and wheat crops on a layered soil in a Mediterranean climate

The influence of time of sowing and sowing density on evapotranspiration and drainage loss beneath wheat (Triticum aestivum cv. Spear) and lupin (Lupinus angustifolius cv. Gungurru) crops grown on a layered soil was investigated for three seasons in a Mediterranean climate in Western Australia. The aim of the study was to investigate whether managing crops to maximise their canopy growth would increase their water use and minimise groundwater recharge contributing to dryland salinity. A soil water balance approach was used to estimate evapotranspiration, with changes in soil water content measured with a neutron water meter. The study was carried out on a layered soil typical of agricultural soils in the region with variable depth to clay (0.22–0.38 m) and a marked contrast in hydraulic properties between the topsoil and subsoil. As a result of the low permeability subsoil, a perched water table occurred in the sandy topsoil in each of the three seasons under study during winter when rainfall was high and potential evaporation low. Perched water tables persisted for 2–3 months, with hydraulic gradients consistently downward causing drainage losses to occur. Although crop management had a large influence on shoot and root development, evapotranspiration from the different treatments was generally similar. Drainage losses were not influenced by either crop type, time of sowing or sowing density, because potential evaporation and hence evapotranspiration was low during the period when drainage losses occurred. The total drainage loss measured in each season was different, with losses ranging from 20.1 to 22.2 mm in 1990, from 40.4 to 46.7 mm in 1991 and from 49.4 to 66.6 mm in 1992. The increase in drainage loss from 1990 to 1992 was a result of progressively more seasonal rainfall in 1990, 1991 and 1992. It was concluded that there was little scope to increase water use and decrease deep drainage through crop management for sites with climatic conditions where winter rainfall exceeds potential evaporation. This revised version was published online in June 2006 with corrections to the Cover Date.     

不同夏季填闲作物种植对设施菜地土壤无机氮残留和淋洗的影响

通过模拟土柱试验方法,研究了设施蔬菜中4种夏季填闲作物种植对土壤无机氮残留和淋洗的影响,并分析了各填闲作物根系参数与土壤无机氮残留及淋洗的相关性,以期揭示填闲作物减少无机氮淋洗的作用机理,并获得设施蔬菜生产体系适宜种植的填闲作物种类及其筛选指标。结果表明,糯玉米和燕麦的地上生物量、根干重、根长密度显著高于豌豆和苋菜,糯玉米、燕麦和豌豆的氮素吸收量高于苋菜。收获时,各填闲作物的种植比土地休闲可以显著的降低土壤(0-60 cm)的无机氮含量;其中燕麦和苋菜对土壤无机氮降低最多,其次为豌豆,再次为糯玉米。四种填闲作物的种植均显著降低了设施菜地的无机氮淋洗量。与休闲处理相比,糯玉米、燕麦、豌豆和苋菜的种植将体系的氮素淋洗量分别降低了100%、96%、82%和58%。相关分析表明,比根长的增加有利于植株地上部氮素吸收量的积累。各土层填闲作物根系参数与土壤无机氮残留和淋洗相关性分析没有明显规律,表明了氮素淋洗可能受地上部和根系生长协同作用的影响,静态的根系参数测定较难反映根系生长与氮素淋洗的关系。总结认为,设施蔬菜生产体系中糯玉米和燕麦比豌豆和苋菜更适合作为夏季填闲作物。     

Recycling of organic matter through mulch in relation to chemical and microbiological properties of soil and crop yields

Summary Field experiments were conducted to investigate the effect of organic mulching on the nutrient status, microbiological properties and the yield of maize and green gram crops. Soil organic carbon and humin and humus carbon of the fallow and the cropped soils were augmented by mulching. More of nitrogen, available phosphorus and ammoniacal and nitrate nitrogen were found in mulched soils. Soil reaction was not affected by mulching. Mulched treatments maintained more of soil moisture and soil temperature lowered during summer and rainy seasons. Population of bacteria, fungi, actinomycetes and Azotobacter were augmented in mulched treatments at all the stages of sampling. Mulching significantly increased the grain and straw yield of both the crops. The nitrogen uptake by grain was higher in mulched than in the unmulched treatments.     

The effect of soil fumigation with D-D on the yields of sugar beet and other crops

An experiment in a field where sugar beet in 1965 had suffered from Docking disorder caused by Longidorus attenuatus tested the effect of fumigating the soil with 3741/ha D-D and two amounts of nitrogen fertilizer on different crop sequences between 1966 and 1969. Although severe Docking disorder did not recur in sugar beet, fumigation increased yield in each of the three following years. Yield of barley was increased for 4 yr and of wheat, potatoes and ryegrass for 1 or 2 yr after treatment. All plant parasitic nematodes were controlled by the first fumigation and the numbers of those in unfumigated plots 3 yr after treatment. Fumigation also largely prevented infection of sugar beet by the fungus Helicobasidium purpureum.     

Rhizoctonia solani injuries in oilseed crops in Finland and impacts of different crop management practices on disease incidence and severity

A disease survey in Finnish oilseed Brassica (OSR) fields in 2007–09 revealed the widespread occurrence and several fold increase of necrotic stem base lesions and severely injured blackened roots in comparison to a corresponding survey carried out in 1984–89. Rhizoctonia solani was the predominant fungi detected in the isolations and was followed by several species of Fusarium and Thielaviopsis basicola. In 60% of the samples all three species were detected together. Only the R. solani AG 2–1 strains isolated from OSR and other cruciferous hosts caused damping off or stem base symptoms on turnip rape in a greenhouse experiment. Therefore R. solani AG 2–1 was considered the main pathogen associated with the observed symptoms in OSR crops. Cultural practices changed significantly between the 1980s and 2000s. In the 2007–09 survey there was an increase in the cultivation of oilseed rape instead of turnip rape, increase in the use of no soil or reduced soil tillage and of chemical control of weeds, but a reduction in macronutrient fertilization, especially P and K, when compared to the 1980s survey. The risk for high incidence of stem base lesions and blackened roots was affected by different cultural practices. No tillage and maintaining sufficient soil pH and NPK fertilisation decreased the risk for both types of R. solani induced symptoms. Late sowing date increased the risk for high incidence of stem base lesions, while application of fungicides against Sclerotinia reduced it. The incidence of R. solani damages in many fields was very high in spite of relatively long crop rotations and therefore the average effect of crop rotation in the disease was insignificant. Current turnip rape cultivars are vulnerable to root rot while oilseed rape is vulnerable to stem base symptoms. The higher incidence of R. solani induced diseases could be associated with the decline in productivity of OSR crops in Finland. This study showed that cultural practices such as reduced or no soil tillage, adequate levels of pH and of NPK fertilization could reduce the severity of the symptoms in OSR fields.     

Short-term effects of crop rotation,residue management,and soil water on carbon mineralization in a tropical cropping system

The purpose of this study was to investigate the short-term effects of maize (Zea mays)-fallow rotation, residue management, and soil water on carbon mineralization in a tropical cropping system in Ghana. After 15 months of the trial, maize–legume rotation treatments had significantly (P?C ₀ (μg CO₂–C g^?1) than maize–elephant grass (Pennisetum purpureum) rotations. The C ₀ for maize–grass rotation treatments was significantly related to the biomass input (r?=?0.95; P?=?0.05), but that for the maize–legume rotation was not. The soil carbon mineralization rate constant, k (per day), was also significantly related to the rotation treatments (P?k values for maize–grass and maize–legume rotation treatments were 0.025 and 0.036 day^?1 respectively. The initial carbon mineralization rate, m ₀ (μg CO₂–C g^?1 day ^?1), was significantly (P?θ. The m ₀ ranged from 3.88 to 18.67 and from 2.30 to 15.35 μg CO₂–C g^?1 day^?1 for maize–legume and maize–grass rotation treatments, respectively, when the soil water varied from 28% to 95% field capacity (FC). A simple soil water content (θ)-based factor, f _w, formulated as: \(f_{\text{w}} = \left[ {\frac{{\theta - \theta _{\text{d}} }}{{\theta _{{\text{FC}}} - \theta _{\text{d}} }}} \right]\), where θ _d and θ _FC were the air-dry and field capacity soil water content, respectively, adequately described the variation of the m ₀ with respect to soil water (R ²?=?0.91; RMSE?=?1.6). Such a simple relationship could be useful for SOC modeling under variable soil water conditions.     

间作不同作物对栀子根际土壤微生态的影响

【背景】栀子为多年生常绿灌木,经过连续多年种植会导致土壤微生态环境恶化、病虫害加剧、品质降低等问题。研究发现间作可以改善土壤微生物区系、土壤养分及酶活性,是生产中常用的有效栽培措施。【目的】通过对不同间作模式下栀子根际土壤微生物区系、酶活性及养分的动态变化进行研究,为揭示栽培措施改良土壤生态环境及提升栀子产量的土壤微生态学机理提供理论依据。【方法】为了解不同间作模式对栀子根际微生态的影响,本试验选择3年生栀子进行了大田试验,采用随机区组设计,设置栀子单作及栀子/白及、栀子/金钱草、栀子/射干3种间作处理,以栀子根际土壤为研究对象进行全生育期取样。采用Illumina高通量测序技术测定细菌16S rRNA基因V3-V4区序列及真菌rDNAITS1-ITS2区序列,并测定各时期土壤的理化性质,以明确栀子间作不同作物对其根际微生物群落及土壤理化性质随栀子生育期的动态变化。【结果】在栀子整个生育过程中,根际细菌群落中变形菌门和酸杆菌门的相对丰度分别为39%和18%,为细菌优势菌门。真菌群落中子囊菌门、担子菌门和被孢霉门相对丰度所占比例依次为51%、22%和19%,为主要真菌类群。在果实膨大期,与单作栀子相比,栀子/射干和栀子/白及可以显著增加土壤细菌群落Shannon指数,增幅分别为6.55%和3.45%(P0.05),其他时期差异不显著。盛花期,栀子/射干间作不会显著降低根际真菌的多样性,而与金钱草或白及间作则显著降低其多样性;果实膨大期,栀子/射干和栀子/白及间作均可以显著提高根际土壤真菌群落的Shannon指数,增幅分别为29.19%和9.12%。土壤养分方面,不同间作模式下根际土壤理化性质存在一定差异。单作栀子根际土壤仅有机质、全氮、速效磷的含量较高,而碱解氮、速效钾含量均低于3种间作处理。土壤酶方面,单作栀子除酸性蛋白酶外,其余几项土壤酶活性均处偏下水平。土壤理化性质与根际微生物多样性的相关性分析显示,细菌多样性指数Shannon与根际土壤有机质、速效磷含量呈显著正相关,与pH值呈极显著正相关(P0.01);真菌多样性指数Shannon与根际土壤全钾、脲酶、过氧化氢酶呈极显著负相关,与速效钾、蔗糖酶、酸性磷酸酶、酸性蛋白酶活性呈极显著正相关。【结论】合理间作可以改善根际微生物群落结构,同时提高土壤综合肥力。     

Soil and crop management strategies to prevent iron deficiency in crops

Plants and humans cannot easily acquire iron from their nutrient sources although it is abundant in nature. Thus, iron deficiency is one of the major limiting factors affecting crop yields, food quality and human nutrition. Therefore, approaches need to be developed to increase Fe uptake by roots, transfer to edible plant portions and absorption by humans from plant food sources. Integrated strategies for soil and crop management are attractive not only for improving growing conditions for crops but also for exploiting a plant??s potential for Fe mobilization and utilization. Recent research progress in soil and crop management has provided the means to resolve complex plant Fe nutritional problems through manipulating the rhizosphere (e.g., rhizosphere fertilization and water regulation), and crop management (includes managing cropping systems and screening for Fe efficient species and varieties). Some simple and effective soil management practices, termed ??rhizosphere fertilization?? (such as root feeding and bag fertilization) have been developed and widely used by local farmers in China to improve the Fe nutrition of fruit plants. Production practices for rice cultivation are shifting from paddy-rice to aerobic rice to make more efficient use of irrigation water. This shift has brought about increases in Fe deficiency in rice, a new challenge depressing iron availability in rice and reducing Fe supplies to humans. Current crop management strategies addressing Fe deficiency include Fe foliar application, trunk injection, plant breeding for enriched Fe crop species and varieties, and selection of cropping systems. Managing cropping systems, such as intercropping strategies may have numerous advantages in terms of increasing Fe availability to plants. Studies of intercropping systems on peanut/maize, wheat/chickpea and guava/sorghum or -maize increased Fe content of crops and their seed, which suggests that a reasonable intercropping system of iron-efficient species could prevent or mitigate Fe deficiency in Fe-inefficient plants. This review provides a comprehensive comparison of the strategies that have been developed to address Fe deficiency and discusses the most recent advance in soil and crop management to improve the Fe nutrition of crops. These proofs of concept studies will serve as the basis for future Fe research and for integrated and optimized management strategies to alleviate Fe deficiency in farmers?? fields.     

吉林黑土区不同施肥处理对农田土壤昆虫的影响

为研究不同施肥处理与农田土壤昆虫群落之间的关系,对吉林黑土区不同施肥处理对农田土壤昆虫群落的影响进行了研究.在12个处理小区内,即（1）撂荒（不施肥、不耕作、不种植,ABAND）、（2）对照（种植、不施肥,CK）、（3）施氮肥（N）、（4）施氮磷肥（NP）、（5）施氮钾肥（NK）、（6）施磷钾肥（PK）、（7）施氮磷钾化肥（NPK）、（8）施氮磷钾化肥＋有机肥处理（有机N 和化肥N 的比例为2：1）（M1NPK）、（9）增加50 %用量化肥配施有机肥（1.5 MNPK）、（10）化肥配施秸秆（SNPK）、（11）玉米、大豆2：1轮作,施肥量同处理8（Rot）、（12）施氮磷钾化肥＋有机肥处理（有机N 和化肥N 的比例为1：1）（M2NPK）,共采集144个定点土壤样品.通过手捡法和改良干漏斗法（Modified Tullgren ）共获得土壤昆虫9922只（未知标本187只）,隶属9目48科.调查结果显示,12种施肥小区内,大型土壤昆虫个体数和类群数依次是：ABAND＞NP＞N＞1.5MNPK＞Rot.＞PK＞NK＞NPK＞M2NPK＞CK＞M1NPK＞SNPK,N＞NK＞ABAND=1.5MNPK＞NP=NPK＞PK＞CK=Rot.＞M2NPK=M1NPK＞SNPK;中小型土壤昆虫数依次是ABAND＞1.5MNPK＞PK＞M2NPK＞CK＞Rot.＞NPK＞SNPK＞NK＞NP＞N＞M1NPK,Rot.＞NPK＞ABAND=NP=1.5MNPK=PK=NK=M2NPK=CK=M1NPK=SNPK＞N.大型土壤昆虫个体数和类群数撂荒中分布最多,中小型土壤昆虫则分别在撂荒和轮作中分布最多.多样性分析表明,1.5MNPK处理中大型农田土壤昆虫组成最丰富,M1NPK处理中小型农田土壤昆虫组成最丰富;CK处理与其他11处理之间群落相似程度最小,Rot.与其他处理之间的群落相似程度较大.Kruskal- Wallis检验法分析表明,施肥对农田土壤昆虫分布影响极显著（X0.05（11）=10.25,p〈0.05）,反映出不同施肥对土壤生态系统内部环境,进而对土壤动物群落产生的影响.多元统计分析表明,轮作对土壤昆虫优势类群具有负向作用,而M2NPK则具正向作用.各种施肥对农田土壤昆虫影响不平衡,其中对农田土壤昆虫个体数影响最大,对中小型土壤昆虫均匀性影响最小.     

长期单施化肥对土壤性状及作物产量的影响

1978－1998年在陕西关中地区农田的长期定位试验研究表明,长期单纯化肥基本上可以维持土壤有机质和NP水平,单施化肥与化肥配合有机肥处理的作物产量基本相当,但是,单施化肥处理使土壤腐殖质能量水平降低,分子缩合程度和芳构化度增大,“老化”作用增强。