夏闲期轮耕对小麦田土壤水分及产量的影响

2007-2010年在宁南旱区研究了夏闲期免耕/深松/免耕(T1)、深松/免耕/深松(T2)、连年翻耕(CT)3种耕作方式对麦田土壤水分及产量的影响.结果表明:经过3年夏闲期T1和T2处理后,农田土壤蓄水效率平均分别较连年翻耕处理提高15.2％和26.5％;T1和T2处理的降水潜在利用率较高,分别达到37.8％和38.5％,降水生产效率平均分别较连年翻耕处理提高9.9％和10.7％.夏闲期轮耕能显著降低休闲期的土壤无效蒸发,有效保蓄小麦生长期的土壤水分.在冬小麦生长前期,T1和T2处理0～200 cm土层土壤水分平均分别较连年翻耕处理增加6.8％和9.4％;在拔节-抽穗-灌浆期,与连年翻耕处理相比,两处理可显著提高0 ～ 200 cm土层土壤蓄水量,对作物产量的贡献率较高.不同轮耕模式在增加作物耗水量的同时也提高了作物产量及水分利用效率,与CT处理相比,3年T1和T2处理作物耗水量平均分别提高5.2％和6.1％,产量分别增加9.9％和10.6％,作物水分生产效率分别提高4.5％和4.3％.相关分析表明,在干旱缺水的宁南地区,冬小麦播种期、拔节-抽穗-灌浆期的土壤蓄水量可显著影响产量,尤其抽穗期的土壤蓄水量对产量的影响更大.     

Effects of nutrient solution zinc activity on net uptake,translocation, and root export of cadmium and zinc by separated sections of intact durum wheat (Triticum turgidum L. var durum) seedling roots

Cd accumulation in durum wheat presents a potential health risk to consumers. In an effort to understand the physiological mechanisms involved with Cd accumulation, this study examined the effects of Zn on Cd root uptake and phloem translocation in a split– root system. Durum wheat seedlings were grown in chelate-buffered nutrient solution with intact root systems divided into two sections. Each root section grew in a separate 1 l pot, one of which contained 0.2 μM CdSO₄. In addition, each two-pot system contained ZnSO₄ in the following combinations (in μm) (for -cd root system: +cd root system): 1:1, 1:10, 10:1,10:10, 1:19, and 19:1. Harvested plant material was analyzed for Cd and Zn. In addition, rates of Cd and Zn net uptake, translocation to the shoot, and root export (translocation from one root segment to the other) between days 8 and 22 were calculated. Results show that Zn was not translocated from one root section to its connected root section. Uptake rates of Cd increased as solution Zn concentrations increased. Cd translocation from one root section to the other decreased significantly when the Zn concentration in either pot was greater than 1 μM. These results show the potential of Zn to inhibit movement of Cd via the phloem, and suggests that providing adequate Zn levels may limit phloem loading of Cd into wheat grain. Increasing the rhizosphere activity of Zn²⁺ in Cd-containing soils may therefore result in reduced Cd accumulation in grain even while net Cd uptake is slightly enhanced. This revised version was published online in June 2006 with corrections to the Cover Date.     

DCD不同施用时间对小麦生长期N2O排放的影响

通过田间试验,采用静态箱法研究相同施肥条件下,DCD不同施用时间(基肥配施,追肥配施,基追肥按比例配施)对麦季N2O排放的影响.结果表明,小麦生长期施肥配施DCD减少麦季N2O排放.从小麦整个生长季来看,与尿素处理相比,基肥配施减少N2O排放21％,追肥配施减少N2O排放26％,基追肥按比例配施减少N2O排放35％,方差分析均达显著水平(P＜0.05),其中基肥配施主要减少小麦播种-返青期N2O排放,追肥配施主要减少小麦返青-成熟期N2O排放,而基追肥按比例配施DCD减少整个小麦生长季N2O排放.在小麦的整个生长阶段,施加DCD处理的土壤NH+4-N浓度和表观硝化率均高于未施加DCD的处理,且土壤NH+4-N浓度随时间的延长而降低.在小麦播种-返青期,基肥配施处理和基追肥按比例配施处理土壤NH+4-N浓度和表观硝化率高于追肥配施处理和对照处理;在小麦的返青-成熟期,追肥配施处理和基追肥按比例配施处理土壤NH+4-N浓度和表观硝化率高于基肥配施处理和对照处理.从小麦产量来看,与尿素处理相比,基肥配施和基追肥按比例配施显著增加小麦产量,而追肥配施处理小麦产量无显著性差异.基追肥按比例配施DCD在提高小麦产量的同时显著减少N2O排放,具有大田推广的现实意义;基肥与追肥配施DCD对N2O减排效果除了与施用时间有关外,还应将降雨或灌溉量的年际变化考虑在内.     

西藏高原田间冬小麦旗叶光合作用研究

 西藏高原冬小麦旗叶光合速率日变化曲线为平坦或单峰型,没有明显“午睡”现象。净光合速率日最高值可与平原接近。光合日总量最高值出现在灌浆中期,其值比平原低4％～34％。净光合速率达20μmolCO2·m-2·s-1以上的环境因子组合是光合有效辐射光量子通量密度2000μmol·m-2·s-1以上,气温25～29℃,近地层大气CO2密度0.41mg·dm-3以上,0cm地温18～23℃、5cm地温15～19℃。这样的因子组合在高原同时满足的机率不高,由于CO2浓度与光温因子高值出现时间不同步,更由于CO2密度比内陆平原低1/3,严重制约了光合日总量值,高原冬小麦旗叶光合作用的特点是净光合速率日最高值可与平原接近,但光合日总量却明显低于平原。     

覆盖对西北旱地春小麦旗叶光合特性和水分利用的调控

2015—2016年在西北黄土高原半干旱区进行大田定位试验,以‘陇春35号’为试验材料,设全膜覆土穴播(PMS)、全砂覆盖穴播(SM)和露地穴播(CK)3个处理,分析旗叶光合特性、春小麦耗水特性和产量构成因子之间的关系.结果表明: PMS和SM 在0～300 cm土层的土壤贮水量在灌浆前分别较CK提高47.8和31.6 mm,灌浆期均较CK降低15.6 mm.PMS和SM提高春小麦挑旗-抽穗期和扬花-灌浆期的土壤耗水.PMS和SM的叶面积指数分别较CK提高59.0%～73.7%和40.1%～52.7%,叶片SPAD值分别较CK提高3.5%～28.4%和2.9%～23.9%.PMS的光合速率和气孔导度在春小麦挑旗、抽穗、扬花期分别较CK提高23.5%、33.0%、17.7%和32.6%、76.4%、66.9%,灌浆期分别较CK降低26.2%和16.4%;PMS和SM的气孔限制值在抽穗、扬花、灌浆期分别较CK降低14.6%、23.9%、22.3%和25.7%、29.8%、17.4%.叶片瞬时水分利用效率PMS在挑旗期较CK提高57.8%,扬花期降低11.2%.PMS的表观量子效率在抽穗、扬花期分别较SM和CK增加22.6%、18.7%和26.8%、14.3%.PMS和SM春小麦的株高和产量构成因子均显著高于CK,且在干旱年份增幅较大;PMS的产量较CK和SM分别提高36.2%和8.7%,水分利用效率分别提高9.4%和3.4%.因此,PMS和SM提高了小麦灌浆前土壤贮水,加剧了挑旗到抽穗和扬花到灌浆期的耗水,提高了小麦叶片SPAD值和叶面积指数,增强了小麦灌浆前旗叶光合功能,促进 “库”的建成和同化物的转运,实现增产和水分高效利用.PMS在丰水年份的增产潜力和干旱年份的适应能力比SM更强.     

Gravitropic response growth angle and vertical distribution of roots of wheat (Triticum aestivum L.)

Recent work on root distribution, growth angles and gravitropic responses in Japanese cultivars of winter wheat are reviewed. Vertical distribution of roots, which influences the environmental stress tolerance of plants, was observed in the 12 Japanese cultivars in the field. The root depth index (RDI: the depth at which 50% of the root length has been reached) differed among the cultivars at the stem elongation stage. Since the RDI was closely related to the growth angle of seminal roots obtained in a pot experiment, it was assumed that growth angle is useful for predicting vertical root distribution among wheat genotypes. Gravitropic responses of the primary seminal root of 133 Japanese wheat cultivars assessed by measuring the growth angle in agar medium, were larger in the northern Japanese cultivars and smaller in the southern ones. It was also found that the geographical variation resulted from the wheat breeding process, i.e. genotypes with limited gravitropic responses of roots had been selected in the southern part of Japan where excessive soil moisture is one of the most serious problems.     

Attachment of Pasteuria penetrans Endospores to the Surface of Meloidogyne javanica Second-stage Juveniles

Pasteuria penetrans spore adhesion to Meloidogyne javanica second-stage juveniles (J2) was examined following several different pretreatments of the latter. The detergents sodium dodecyl sulfate and Triton X-100, the carbohydrates fucose and α-methyl-D-mannoside, and the lectins concanavalin A and wheat germ agglutinin reduced spore attachment. Spores exposed to M. javanica surface coat (SC) extract exhibited decreased adherence to the J2 surface. Second-stage juveniles that had been treated with antibodies recognizing a 250-kDa antigen of J2 SC extract had fewer spores attached to their surfaces, as compared to nontreated J2, except in the head region. This inhibition pattern was similar to that of antibody-labelling on M. javanica J2 as observed by electron microscopy. It is suggested that several SC components, such as carbohydrate residues, carbohydrate-recognition domains, and a 250-kDa antigen, are involved in P. penetrans spore attachment to the surface of M. javanica.     

三个矮杆小麦的矮生性遗传研究

通过与事国春杂交,利用杂交后代Ｆ２和回交后代ＢＣ１Ｐ１及ＢＣ２Ｐ２,研究了三个小麦新矮杆品系和矮生性遗传特性。结果表明,０００４的矮生性受一对部分显性矮杆基因控制,５７４６和７５３９－各受两对部分显性矮杆基因控制。     

控灌对小麦植株体内激素含量与籽粒灌浆速率的影响

利用防雨棚研究了控灌对小麦植株体内激素含量与籽粒不乐速率的影响。结果表明：随控水加重,小麦旗叶、根系和籽粒中ＡＢＡ含量迅速达到高峰,然后快速降低;控水愈重,ｉ－ＰＡｓ峰值和籽粒灌浆速率峰值出现愈早,尔后下降,从而加速了植株衰老进程,导致产量降低。籽粒灌浆速率变化与旗叶,根主籽粒中激素含量变化呈极显著相关,且上述性状在相对含水量６０％处理下与８０％（对照）相比无显著差异,从而为小麦节水栽培提供了依据     

Boron accumulation and partitioning in wheat cultivars with contrasting tolerance to boron deficiency

Two pot experiments at the Plant Environment Laboratory (PEL), Reading, UK investigated sterility, boron (B) accumulation and B partitioning of wheat cultivars grown with limited B in the growing medium. The first experiment evaluated nine cultivars of spring wheat with diverse field responses to low available soil B, supplied with or without 20 μM B. A second experiment examined the response of a susceptible (SW-41) and a tolerant (Fang-60) cultivar to B-deficiency. These cultivars were supplied with either 20 μM B from sowing to flag leaf emergence and no added B thereafter, or 20 μM B from sowing to maturity. When B was not supplied in the nutrient solution, the number of grains ranged from 4 per ear (cv. BL-1135) to 32 per ear (cv. BL-1249) and sterility of competent florets ranged from 39% to 93%. Boron concentration in the flag leaf at anthesis did not differ greatly when the growing medium contained limited B, but differences between cultivars were evident when B was unlimited. Tolerance of B-deficiency was not related to the B concentration in the flag leaf. Some cultivars produced viable pollen and set grains while others failed to do so at similar B concentrations in the flag leaf. The two contrasting cultivars did not differ much in their pattern of B partitioning when B supply was restricted from flag leaf emergence onwards. Similarly, little evidence was found that the tolerant cultivars translocated B from their leaves, roots or stems when the supply in the growing medium was restricted. The proportion of total B partitioned in different organs was the same irrespective of B supply and cultivar. On average, leaves contained 68% of the total B content in the whole plant compared to 16% in the roots, 10% in the ears and only 6% in the stems. Tolerant or susceptible cultivars of wheat could not be distinguished based on the B concentration and B content of the flag leaf. This revised version was published online in June 2006 with corrections to the Cover Date.