生物炭添加对酸化土壤中小白菜氮素利用的影响

针对菜地土壤酸化趋势显著、氮肥利用率低下等突出问题,以小白菜为供试作物,设置了前3季连续施用化肥氮及后2季不施化肥氮的5季盆栽试验,研究生物炭添加对酸化土壤上连续多季种植小白菜的产量、氮肥利用率以及土壤供氮能力的影响。结果表明:在连续添加化肥氮的条件下,生物炭添加显著增加了小白菜的产量及氮素累积量,有效降低了土壤速效氮含量,并提高了土壤速效氮中NO3--N含量比例,缓解了土壤酸化趋势,降低了小白菜中硝酸盐含量,增加了氨基酸含量,提高了氮肥利用率;在停止施用化肥后,生物炭添加处理仍能保持较高的土壤速效氮含量,提高土壤固持氮素的有效性,促进植株对氮素的吸收利用,从而使产量维持在施氮条件下的高水平。研究表明生物炭添加对土壤氮素具有"削峰填谷"的调节功能,能够有效促进氮素的吸收转化,从而有利于维持高产。     

华北平原旱地不同熟制作物产量、效益和水分利用比较

针对华北平原地下水超采严重,通过研究雨养旱作条件下不同熟制的产量、投入产出和水分利用效率,探索华北平原缺水区雨养旱作条件下的节水种植制度,可为地下水超采提供技术支撑。以当地主栽种植模式冬小麦和夏玉米一年2熟种植和春玉米一年1熟种植为研究对象,通过大田试验对雨养旱作条件下冬小麦、夏玉米和春玉米3种作物构成的2种种植制度的产量、耗水、投入、产出进行分析。试验于2007—2013年在中国科学院栾城农业生态系统试验站进行,该站为华北平原高产农区的典型代表。试验共设2个处理,T1为冬小麦-夏玉米一年2熟制,T2为春玉米一年1熟制。T1中的冬小麦生育期为每年的10月中上旬至翌年的6月中旬,夏玉米为6月中下旬至10月上旬,冬小麦品种大部分年份为‘科农199’,夏玉米品种为‘郑单958’。T2中春玉米的生育期为每年的5月中下旬至当年的9月上中旬,品种为‘农大108’、‘浚单20’、‘郑单958’和‘先玉335’。试验区从2007年9月至2013年6月一直未灌溉,为雨养旱作条件。研究结果表明,雨养旱作条件下,冬小麦产量基本稳定;夏玉米和春玉米产量随年型不同波动较大,尤其是夏玉米产量受播种时土壤含水量的影响较大,很多年份由于干旱少雨,玉米出苗时间推迟,导致玉米产量大幅度降低。T1比T2虽然具有明显的产量优势,增产34.1%,但由于冬小麦生产投入较高,T1的净收益比T2低279.97元·hm-2。3种作物的生产投入中,农资和机械投入比例最大,劳动力投入占很小比例,农资投入中,化肥投入最高;3种作物的产投比分别为1.42、2.66和3.42,雨养旱作条件下冬小麦的产投比最低,春玉米最高。从作物的耗水结构分析,冬小麦生育期降雨较少,以消耗雨季储存于土壤中的土壤水分为主,春(夏)玉米生育期降雨较多以消耗降雨为主。目前,生产上正在自发地压缩冬小麦的种植面积,春玉米一年1熟种植面积迅速增加。因此,在保证区域粮食安全的条件下,通过调整农业种植结构可以控制水资源的过度开采,保证农业持续发展。     

根际注射施肥对黄土高原苹果氮素吸收利用及产量和品质的影响

【目的】在西北黄土高原地区,春季干旱少雨和肥料利用率低限制着生产优质苹果。国外通常应用水肥一体化技术来克服水肥利用率低的问题,但由于其硬件设施要求高,投资大,短期内在我国难以推广。近年来我国采用的根际注射施肥可利用施肥枪将肥料溶液直接注入根际土壤中,施肥成本低且技术简单。本研究利用同位素15N示踪技术,研究根际注射施肥对苹果氮素吸收利用及产量品质的影响,可为黄土高原果园水肥高效利用提供依据。【方法】以9年生富士/M26/新疆野苹果为试验材料,利用15N尿素标记肥料去向,最后通过MAT-251质谱计测15N丰度,得出果树各器官和土壤的肥料利用率。同时利用叶绿素仪(SPAD-502)测定标记叶片的SPAD值,用浸以磷酸甘油溶液的海绵进行田间原位测定,得到土壤氨挥发的量,用静态箱—气相色谱法测定土壤的N2O逸失量。综合对比分析黄土高原传统环状开沟撒施肥与根际注射施肥对苹果吸收利用氮素、肥料氮在土壤中残留及果实产量和品质的影响。【结果】黄土高原苹果园根际注射施肥的优越性体现在:1)施肥后一个月内,果园土壤的气态氮素损失发生变化,根际注射施肥比传统环状开沟施肥的氨挥发总量低54.9%,同时N2O的排放通量低5.0%。2)根际注射施肥后,促进了肥料在土壤中的扩散范围,扩大了根系肥水吸收容积,叶片和果实吸收的肥料氮比例(Ndff%)在整个生长季始终处于较高水平。生长季末期,根际注射施肥的整株氮素当季吸收率为53.04%,比环状开沟施肥提高12.25个百分点,表明根际注射施肥有利于氮素更快地被吸收利用,显著提高苹果树的氮素当季利用率。3)生长季末,在0—60 cm土层内,根际注射施肥的土壤氮素残留率为36.55%,而环状开沟施肥为43.13%,前者显著低于后者。4)在整个生长季内,根际注射施肥处理下的树体新梢叶片内叶绿素含量(SPAD)值一直高于环状开沟施肥。根际注射施肥能提高苹果单株产量和单果重,其单果重和单株产量分别比环状开沟施肥处理提高了3.8%和19.7%。【结论】黄土高原地区推广的果树根际注射施肥技术可以有效提高苹果树体氮素的利用率,降低了土壤中的氮素残留。此外注射施肥的深度、注射量、密度和时间均可根据不同时期的养分需要随时调整,使水肥在土壤中均匀分布,达到节水节肥的目的。同时可避免传统施肥时挖坑作业对浅土层吸收根的损伤,降低劳动力成本。综合来看,根际注射施肥是提高黄土高原区旱地苹果树肥水利用率、产量和品质的有效方式之一。     

Effect of Foliar Application of Phosphorus on Winter Wheat Grain Yield,Phosphorus Uptake,and Use Efficiency

ABSTRACT

One would expect foliar applied phosphorus (P) to have higher use efficiencies than when applied to the soil, but limited information is available concerning this. Experiments were conducted in 2002, 2003, and 2004 to determine the effect of foliar applications of P on winter wheat grain yields, P uptake, and use efficiency. Twelve treatments containing varying foliar P rates (0, 1, 2, and 4 kg ha^{? 1} in 2002 and 2003 and additional 8, 12, 16, and 20 kg ha^{? 1} in 2004) with and without pre-plant rates of 30 kg ha^{? 1} were evaluated. Foliar applications of P at Feekes 7 generally increased grain yields and P uptake versus no foliar P. Use efficiency was higher when P was applied at Feekes 10.54. Results from this study suggested that low rates of foliar applied P might correct mid-season P deficiency in winter wheat, and that might result in higher P use efficiencies.     

荒漠化防治条件下土地利用系统多维灰色动态评估——以山西省河曲县为例

通过对山西省河曲县荒漠化防治效益的多维灰色动态评估,实现了静态的横向比较和动态的纵向比较。预测了不同土地利用系统的发展趋势,并划分了6种发展趋势类型:即高稳定型、低稳定型、中稳定型、上升型、下降型和不稳定型。结果表明,河曲县的荒漠化防治效益以上升趋势为主。     

黄土高原地区沟道工程的水保作用与防洪功效

实践证明,黄土高原地区以骨干坝、淤地坝为主的沟道工程、小流域坝系,在拦泥淤地、防洪保收、水资源利用、灌溉、养殖、人畜饮水、改善交通等方面发挥了重要作用,成为不可缺少的水土保持重要措施。沟道工程的防洪实践证明,只要形成以治沟骨干工程为骨架,以小多成群的淤地坝为主体的沟道坝系,完全可以保证沟道工程的安全。     

Nitrogen Uptake and Its Association with Grain Yield in Lowland Rice Genotypes

ABSTRACT

Nitrogen is one of the most yield–limiting nutrients in lowland rice in Brazil. A field experiment was conducted for two consecutive years to evaluate nitrogen (N) uptake by five lowland rice genotypes and its association with grain yield. The nitrogen rate used was 0, 50, 100, 150, and 200 kg ha^?1. The genotypes evaluated were CNAi 8886, CNAi 8569, BRSGO Guará, BRS Jaburu, and BRS Biguá. Grain yield and dry matter yield of shoot were significantly influenced by N rate. However, response varied from genotypes to genotypes. Genotype BRSGO Guará, BRS Bigua, and BRS Jaburu were having linear response, whereas genotypes CNAi 8886 and CNAi 8569 were having quadratic response with the N application rate in the range of 0 to 200 kg ha^?1. Overall, genotypes BRSGO Guará and CNAi 8886 were the best because they produced higher yield at low as well as at higher N rates. Nitrogen uptake in shoot was having quadratic relationship with grain yield, whereas nitrogen uptake in the grain was linearly associated with grain yield.     

Effects of deficit irrigation on tomato and eggplant and their infection with the root-knot nematode under controlled environmental conditions

Deficit irrigation has been widely investigated as a valuable strategy for dry regions where water is the limiting factor in crop cultivation. Soil moisture can be one of the important factors that influence root-knot nematode (RKN) disease development. To determine how different levels of irrigation can affect disease development, irrigation regimes ranging from 20% to full field capacity (FC) were applied to tomato and eggplant plants inoculated with Meloidogyne javanica (M. javanica) under controlled conditions. In addition, in vitro bioassays were done to evaluate the effect of water potential and soil moisture content on M. javanica viability in the soil and reproduction on plant hosts. The relative egg hatching percentage decreased significantly with decreasing water potential from –0.1 to –1 MPa. The use of 80% irrigation level caused minor reductions in growth but significantly reduced nematode infection load. Nematode infection was reduced even further at lower levels of irrigation, however this also led to marked reductions in fresh and dry weights of the tomato and eggplants. Therefore, deficit irrigation could be used at a rate of 80% or 60% of FC to increase water use efficiency and reduce the level of RKN (M. javanica) infection without greatly reducing the growth performance of tomato and eggplant crops.     

MYCORRHIZAL INFLUENCE ON FRUIT YIELD AND MINERAL CONTENT OF TOMATO GROWN UNDER SALT STRESS

Tomato (Lycopersicon esculentum Mill.) yields are known to decrease for plants grown in saline soils. This study was conducted to determine the effects of arbuscular mycorrhizal fungi (AMF) inoculation on fruit yield and mineral content of salt-tolerant and salt-sensitive tomato cultivars grown with varied levels of salt. NaCl and CaCl₂were added to soil in the irrigation water in equal molar ratios to give EC_e values of 1.4 (nonstressed) and 4.9 dS m^?1 (salt stressed). Plants were grown in a greenhouse using unsterilized, low phosphorus (P) (silty clay) soil-sand mix. Mycorrhizal root colonization occurred whether cultivars were salt stressed or nonstressed, but the extent of AMF root colonization was higher in AMF inoculated than uninoculated plants. The salt tolerant cultivar ‘Pello’ generally had higher AMF root colonization than the salt sensitive cultivar ‘Marriha’. Shoot dry matter (DM) yield, fruit fresh yield, and AMF colonization were higher for plants grown under nonstressed than for plants grown under salt stressed conditions. Shoot DM and fruit fresh yields were higher in AMF inoculated than uninoculated plants grown with or without salt stress. Pello generally had higher fruit fresh yield per plant and fruit weight than Marriha, but these differences were only significant for fruit weight in unioculated plants grown under salt stressed conditions. The enhancement in fruit fresh yield due to AMF inoculation was 26 and 23% under nonstressed and 28 and 46% under salt stressed treatments for Pello and Marriha, respectively. For both cultivars, fruit contents of P, potassium (K), zinc (Zn), copper (Cu), and iron (Fe) were higher in AMF inoculated compared with uninoculated plants grown under nonstressed and salt stressed conditions. Fruit Na concentrations were lower in AMF inoculated than uninoculated plants grown under salt stressed conditions. The enhancement in P, K, Zn, Cu, and Fe acquisition due to AMF inoculation was more pronounced in Marriha than in Pello cultivar under salt stressed conditions. The results of this study indicated that AMF inoculated plants had greater tolerance to salt stress than unioculated plants.