粉葛根腐病的病原鉴定

近年来发现一种严重为害粉葛块根的土传病害。经显微镜直接检查、病原菌分离培养观察、致病性测定及田间病害调查，初步鉴定该病为粉葛镰刀菌根腐病，病原菌为腐皮镰刀菌(Fusarium solani，属半知菌亚门真菌)；该病的发生是由于腐皮镰刀菌与植物线虫复合感染所致。该报道在中国尚属首例。     

The effect of diesel fuel on common vetch (Vicia sativa L.) plants

When petroleum hydrocarbons contaminate soil, the carbon:nitrogen (C:N) ratio of the soil is altered. The added carbon stimulates microbial numbers but causes an imbalance in the C:N ratio which may result in immobilization of soil nitrogen by the microbial biomass, leaving none available for plant growth. As members of Leguminosae fix atmospheric nitrogen to produce their own nitrogen for growth, they may prove more successful at growing on petroleum hydrocarbon contaminated sites. During a wider study on phytoremediation of diesel fuel contaminated soil, particular attention was given to the performance of legumes versus other plant species. During harvesting of pot experiments containing leguminous plants, a recurring difference in the number and formation of root nodules present on control and contaminated Common vetch (Vicia sativa L.) plants was observed. The total number of nodules per plant was significantly reduced in contaminated plants compared to control plants but nodules on contaminated plants were more developed than corresponding nodules on control plants. Plant performance of Common vetch and Westerwold's ryegrass (Lolium multiflorum L.) was compared to illustrate any difference between the ability of legumes and grasses to grow on diesel fuel contaminated soil. Common vetch was less affected by diesel fuel and performed better in low levels of diesel fuel contaminated soil than Westerwolds ryegrass. The total amount of diesel fuel remaining after 4 months in Common vetch planted soil was slightly less than in Westerwolds ryegrass planted soil.     

根系分泌物对土壤重金属活化及其机理研究进展

植物通过调节根分泌物的组成来改变根际状态以适应外界环境。在重金属胁迫下,植物根系分泌物种类和量会发生显著变化。根系分泌物可通过溶解、螯合、还原等作用活化土壤重金属,提高重金属的植物有效性,或固定和钝化重金属,降低重金属的移动性。文章就根系分泌物对土壤重金属形态、有效性及其在重金属吸附解吸中的作用,根系分泌物活化土壤重金属的影响因素等国内外研究进展作了综述,并对该领域今后的研究方向进行了探讨。     

磷水平对不同耐低磷水稻苗根系生长及氮、磷、钾吸收的影响

选取3个耐低磷水稻基因型99011、580和99112及1个磷敏感基因型99056为材料，采用营养液培养，比较了它们在不同磷水平下苗期根系的生长状况及对氮、磷、钾的吸收情况，结果表明，耐低磷基因型适应低磷的能力较强，它们具有较长的根系、较大的根体积和根干重，其中99011和580表现尤为突出，且它们的根系受磷水平变化的影响明显小于敏感基因型99056；0．081～0．161mmol／L的磷处理更有利于耐低磷基因型根系的发育，并且促进氮和钾的吸收，此时，植株能够吸收较正常磷处理更多的氮和钾；而磷敏感基因型99056吸收氮和钾的量随供磷水平的下降而减少，并且吸收磷的总量受磷水平变化的影响显著较3个耐低磷基因型大。     

粉葛根腐病菌的生物学特性及防治研究

粉葛根腐病是粉葛生产上新发现的一种毁灭性土传病害。作者对病原作了人工分离和接菌试验，观测了温度、pH对病原菌菌丝体生长的影响；对防治药剂进行了筛选和试验，探讨了该病的有效防治药物及对策。     

青蒿毛状根分支生长的动力学模型

近年来，用m质粒转化药用植物诱导毛状根生产有用代谢产物的研究日益增多，转化产生的毛状根不仅生长迅速，分支多，而且遗传性和生理、生化特性稳定，具有较强的次生代谢合成能力，因此可望应用于大规模生产有用的次级代谢产物［‘－’］．青蒿毛状根可产生大量的次生代谢产物     

汞对蔬菜幼苗生长及氧化酶同工酶的影响

汞是城市污水中的一种主要有毒物,郊区农民常用这种污水灌溉农作物,造成减产。含汞工业污水对水稻、小麦种子萌发、幼苗及胚根生长的毒性影响及体内某些酶的变化已有一些报道,但对蔬菜幼苗期形态变化与体内某些酶变化的关系则很少有人探讨。我们用不同浓度汞溶液处理番茄等6种作物种子,探讨其对幼苗生长的影响及体内氧化酶同工酶变化的关系,为生产上早期检测作物受汞害的程度、选择抗汞害的作物品种提供依据。     

氮肥施用对紫色土-玉米根系系统N2O排放的影响

通过不同施氮水平与不同氮肥品种2个田间试验,结合静态箱-气相色谱法研究了川中丘陵区2005年5～9月石灰性紫色土-玉米根系系统的N2O排放变化.结果表明:1)施用氮肥显著地增加了N2O排放,在3个施氮水平下(0、150和250 kg·hm-2),N2O排放总量分别为0.88、2.19和2.52 kg·hm-2;施氮量越高,N2O排放量也越高.当施氮量超过一定水平后,施肥量高低对N2O排放总量的影响并不显著.由氮肥施用引起的N2O排放量占施氮量的0.87%(150 kg·hm-2)和0.66%(250 kg·hm-2).2)氮肥品种显著影响N2O排放,尿素(酰胺态氮肥)和硫酸铵(铵态氮肥)处理的N2O排放量分别为2.09和1.80 kg·hm-2,显著高于硝酸钾(硝态氮肥)处理(1.27 kg·hm-2),三者排放量分别占施氮量的0·80%、0.60%和0.27%.3)降雨是玉米生长季N2O排放的主要影响因子,而无机氮则是影响N2O排放的主要限制因子.     

Dynamic temperature model for proton exchange membrane fuel cell using online variations in load current and ambient temperature

This paper presents a dynamic temperature model for a proton exchange membrane fuel cell (PEMFC) system. The proposed model overcomes the complexity of conventional models using first-order expressions consisting of load current and ambient temperature. The proposed model also incorporates a PEMFC cooling system, which depends upon the temperature difference between events. A dynamic algorithm is developed to detect load changing events and calculate instantaneous PEMFC temperature variations. The parameters of the model are extracted by employing the lightning search algorithm (LSA). The temperature characteristics of the NEXA 1.2 kW PEMFC system are experimentally studied to validate model performance. The results show that the proposed model output and the temperature data obtained from experiments for linear and abrupt changes in PEMFC load current are in agreement. The root-mean-square error between the model output and experimental results is less than 0.9. Moreover, the proposed model outperforms the conventional models and provides advantages such as simplicity and adaptability for low and high sampling data rates of input variables, namely, load current and ambient temperature. The model is not only helpful for simulations but also suitable for dynamic real-time controllers and emulators.     

菌渣中青霉素对蔬菜种子萌发的生态毒性效应

为推动青霉素菌渣环境安全利用技术规范的建立,以油麦菜、油菜、白菜和生菜4种蔬菜为研究对象,以种子发芽率、幼苗鲜质量、芽长和根长为毒性敏感指标,研究了不同处理组〔ρ（PG）分别为10、100、200、400、800、1 200、1 600、2 000、2 400、3 200和4 000 mg/L〕和对照组的青霉素（Penicillin,简称“PG”）对4种蔬菜种子萌发的生态毒性响应关系.结果表明:①与对照组相比,各处理组4种蔬菜种子发芽率之间均无显著性差异（P>0.05）;当ρ（PG）≥1 200 mg/L时,油菜种子的芽长增长率在60%左右,且与对照组相比具有显著差异（P < 0.05）;在ρ（PG）为200 mg/L时,生菜鲜质量达到最大值（0.29 g）,较对照组增加了10.37%,白菜鲜质量在ρ（PG）为400 mg/L时达到最大值,较对照组增加了5.76%,而在试验浓度范围内,各处理组4种蔬菜种子的根长均随着ρ（PG）的增大表现出逐渐增强的抑制作用.②PG对4种蔬菜的根长抑制率剂量-效应关系均符合Allometric模型,即y=axb〔其中,x为ρ（PG）,y为根长抑制率,a和b均为常数〕.③油麦菜、油菜、白菜和生菜4种蔬菜对PG的根长半抑制浓度（IC₅₀）分别为1 675.11、995.67、3 736.40和2 510.24 mg/L,4种蔬菜根长抑制率对PG的敏感程度表现为油菜>油麦菜>生菜>白菜（P < 0.05）.研究显示,与油麦菜、白菜和生菜相比,油菜更适合作为PG的生态毒性指示植物.