不同氮素水平下冬小麦叶片酚酸类物质代谢对FACE的响应

利用开放式空气CO2浓度升高(Free Air Carbon-dioxide Enrichment, FACE)平台, 研究了低氮(LN)和常氮(NN)水平下, 大气CO2浓度升高对冬小麦叶片酚酸类物质代谢的影响.结果表明, CO2浓度升高对小麦叶片水杨酸、对羟基苯甲酸、肉桂酸、阿魏酸和香草酸含量的影响随供氮水平的不同而有所差异.低氮下小麦通过提高叶片苯丙氨酸解氨酶(PAL)活性(30.1%)而使其含量均显著增加, 增幅分别达33.7%、119.6%、26.7%、39.9%和28.6%; 而常氮下PAL活性和酚酸类含量变化均未达显著水平.可见, 大气CO2浓度升高对冬小麦酚酸类物质代谢的影响受氮水平的调控, 在未来CO2浓度升高条件下, 选择适宜的施肥水平将显得更为重要.此外, 总酚含量与水杨酸、对羟基苯甲酸、肉桂酸、阿魏酸和香草酸等含量变化趋势基本一致, 且总酚含量变化的79.6%～151.4%是由这几种酚酸含量变化引起的, 说明CO2浓度升高使水杨酸、对羟基苯甲酸、肉桂酸、阿魏酸和香草酸等含量增加是总酚含量增加的直接原因.低氮条件下大气CO2浓度升高将通过改变酚酸类物质代谢而间接影响小麦与伴生杂草的关系.     

棉花黄萎病拮抗细菌DS45-2菌株抗菌蛋白的分离纯化

枯草芽孢杆菌(Bacillus subtilis) DS45-2菌株产生的抗菌蛋白对棉花黄萎病有较强的抗性。用NB培养基摇床振荡培养DS45-2菌株(30℃,180r/min,48h),发酵液经硫酸铵盐析得到抗菌蛋白。经分析,抗菌蛋白对热稳定;对胃蛋白酶、胰蛋白酶均不敏感,对蛋白酶K部分敏感;在碱性条件下稳定,酸性条件下抑菌活性减弱。抗菌蛋白经DEAE Sepharose Fast Flow阴离子交换层析和反相层析后,分离纯化出一个抗菌蛋白0组分,经SDS-PAGE检测分子.质量约为23 kDa。     

FACE对杂交籼稻汕优63干物质生产与分配的影响

2005--2006年利用我国惟一的农田开放式空气CO2浓度增高（FACE）研究平台,以三系杂交籼稻汕优63为供试材料,设计比大气CO2浓度（对照,370umol．mol^-1）高200umol．mol^-1的FACE处理（570umol．mol^-1）和施N量为125kg·hm^-2（LN）、250kg·hm^-2（NN）处理,研究其对汕优63物质生产与分配的影响。结果表明：（1）两季平均,FACE处理使汕优63移栽-分蘖中期、分蘖中期-拔节期、拔节-抽穗期和抽穗-成熟期干物质生产量分别比对照增加了39％、20％、32％和41％,结果使成熟期生物产量显著增加（＋33％）;（2）与干物质生产量相比,汕优63平均叶面积指数（LAI）和净同化率（NAR）对CO2的响应有相似的季节性变化趋势,但LAI的响应值明显大于NAR;（3）FACE处理使汕优63不同生育时期叶片和稻穗占地上部干重的比例下降,而使茎鞘占地上部干重的比例明显增加;（4）三系杂交籼稻汕优63成熟期生物产量以及不同生育阶段平均LAI、NAR和干物质生产量对FACE的响应与粳稻品种存在明显差异．而干物质分配差异较小。     

CO2浓度升高对农作物品质影响的研究进展

农作物品质受农作物遗传发育特征和环境因素的双重影响。在相似的遗传背景条件下,CO2浓度持续升高影响农作物中碳水化合物合成、有益和有害元素吸收的权重逐渐加大,从而引发所谓的“隐形饥饿”和农产品卫生品质下降。本文在回顾国内外有关CO2浓度升高影响农作物中碳水化和物合成、有益和有害成分吸收研究的基础上,结合本团队近年的研究结果,提出：随着产地环境污染由局部向整体扩延,CO2浓度持续升高对农作物卫生品质的潜在影响不断加剧,包括增加或减少农作物对有毒有害物质的吸收;强化农作物对土壤中有益或有害物质的非均衡吸收等。本文还对比了目前国内外CO2浓度升高对农作物品质影响研究的常用手段与方法,并对相关研究结果的差异进行了分析,着重指出这一研究方向今后工作的重点。     

施肥对稻田N2O排放的影响

肥料施用是影响稻田N20排放的重要因素之一。以国内外相关文献为基础,综述了肥料的种类、施用量、施用方式和施用时间对稻田N2O排放的影响,指出了有待研究的内容：加强对土壤N2O排放机理的研究;进一步研究肥料施用对稻田N2O排放的影响;进一步研究施肥管理措施对稻田温室气体（CH4和N2O）排放的交互影响,寻求科学合理、切实可行的减排措施。     

中国农田N2O排放通量原位观测研究的汇总分析

通过对已有文献资料的调研和整理,分析了1990--2008年间有关中国农田N2O排放通量田间原位观测的分布特征。结果表明,1990--2008年间中国农田N2O排放通量原位观测研究呈不断发展趋势,2002年后进入快速增加期。通量原位观测位点的空间分布不平衡,主要集中在长江中下游、华北和西南地区,东北、西北、华南地区观测位点较少;农田N2O排放通量原位观测在作物类型间差异明显,对稻田的研究占到数据组总数的36％,其次为小麦和玉米田,分别占24％和21％,紫云英田仅为0．2％。针对农田N2O排放通量原位观测研究的现状,建议今后需进一步关注西北和东北典型农田生态系统N2O排放观测研究;在测定大宗作物系统N2O排放的基础上,重点加强典型菜地N2O通量的原位观测;强调温室气体CO2、CH4和N2O的同步观测与同位素示踪等技术相结合,以寻求农业增产、增效与温室气体减排的系统机制与实现途径。     

Abiotic soil properties and the occurrence of Rhizoctonia crown and root rot in sugar beet

Since 1993, Rhizoctonia crown and root rot (Rhizoctonia solani AG 2–2 IIIB) has represented an increasing problem for sugar beet production in Germany. Up to now, the outbreak of the infection and the spread of the disease within a field cannot be predicted and effective countermeasures are not available. Although little is known about the living conditions of R. solani in soils, abiotic soil properties are likely to influence the disease occurrence. Investigations were carried out based on 60 pairwise comparisons, each consisting of a disease‐affected and an adjacent nonaffected patch on farmers' fields in 2002 and 2003. Soil samples from the top soil layer (0–30 cm) were collected before harvest, and eight of the most frequently mentioned soil properties potentially influencing Rhizoctonia crown and root rot infection were examined: bulk density, texture, carbonate carbon, potassium, phosphorus, organic carbon, total nitrogen, and pH. The occurrence of the disease was significantly related to the soil C : N ratio, indicating the influence of soil organic matter on the disease occurrence. Examinations of soil thin sections showed that organic‐matter particles in the soil serve as a substrate for R. solani. All other soil physical and chemical properties examined did not differ between the disease‐affected and nonaffected patches and seem to be of minor importance.     

Biostimulant activity of two protein hydrolyzates in the growth and nitrogen metabolism of maize seedlings

Two protein hydrolyzate–based fertilizers (PHFs), one from alfalfa (AH) and one from meat flour (MFH), were studied chemically and biologically. AH and MFH revealed a different degree of hydrolysis and a different amino acid composition. The biostimulant activity was investigated using two specific and sensitive bioassays of auxins and gibberellins. Extracts of AH and MFH elicited a gibberellin‐like activity and a weak auxin‐like one. To improve our understanding of the biostimulant activity, AH and MFH were supplied to maize plants and their effect on growth and nitrate metabolism was studied. Both PHFs increased root and leaf growth and induced morphological changes in root architecture. Besides, the treatments increased nitrate reductase (NR) and glutamine synthetase (GS) activities, suggesting a positive role of the two hydrolyzates in the induction of nitrate conversion into organic nitrogen. Moreover, treatments enhanced GS1 and GS2 isoforms in maize leaves. The latter isoform, amounting to 5‐ to 7‐fold the level of the former, appears to be a superior form in the assimilation of ammonia. The high NR and GS activities together with the high induction of GS isoforms indicate a stimulatory effect of the two PHFs on the assimilation of nitrate. In addition, a role of amino acids and small peptides of the two PHFs is suggested in the regulation of the hormone‐like activity and nitrogen pathway.     

Rearrangement of bacterial community structure during peat diagenesis

The relationship between microbial diagenesis of Sphagnum peat (SP) and reed-sedge peat (RSP) and the spatial organization of peat bacterial communities was studied. Peats were aerobically incubated at 18-22 °C for 4 months. Changes in molecular composition of peat organic matter were monitored with solid-state ¹³C NMR, and the respective amount of functional groups was determined by integration of corresponding peaks. No abiotic peat transformation was detected. SP diagenesis caused about a 4% loss of parent materials with a similar yield of ketones, phenols, aromatic, and carbonyl compounds; whereas about 20% of RSP carbohydrates, along with ketones and methoxyl compounds were gradually transformed into carbonyl and aliphatic compounds. SP and RSP substantially varied in bacterial composition. To address spatial community structure, bacterial populations were dissected by a differential elution technique into three fractions based on the degree of their attachment to peat. Community composition was surveyed with T-RFLP (HhaI, MspI, and RsaI). The fragments were further attributed to freely-dispersed (FD), particle-associated (PA), or omnipresent (OMN) bacterial fractions. In both peats, bacterial communities have gradually shifted with the progress of diagenesis. In SP, numbers of exclusively FD or PA bacteria slightly decreased while in RSP their numbers more than doubled after 4-month incubation, and the number of OMN bacteria respectively decreased. The substantially greater changes in the spatial structure of RSP bacterial community compared to SP were consistent with the chemical transformations detected in these peats suggesting the diagenesis-driven divergence of RSP bacterial community into FD and PA sub-communities.     

CO2浓度升高与增施钾肥对黄瓜生长的影响

采用土培和开顶箱法,研究了大气CO_2浓度升高与K肥共同作用对黄瓜生长的影响.结果表明,CO_2浓度升高和K肥浓度增大均能增加黄瓜干物质的积累,且在高CO_2浓度下.200mg/kg和300 mg/kg K肥处理时黄瓜的干物重达到最大值.大气CO_2浓度升高使得黄瓜体内的N、P、K、Na、Ca、Mg含量均降低,K肥处理对黄瓜植株内N、P、Ca、Mg含量的影响不大,但K的含量随K肥的增加而增加.在高浓度CO_2下,200mg/kg和300mg/kg K肥处理时黄瓜对N、P、K、Ca、Mg的吸收量达到最大值.可见,在未来CO_2浓度升高的环境中,更多的K肥供应能促进作物对N、P、K、Ca、Mg的吸收,使其快速高效的生长.