杉木第3代种子园多元素配方施肥效应研究

杉木种子园为培育高产稳产杉木良种提供重要保障,在林业生产中具有积极意义。通过试验研究,探究杉木3代种子园土壤养分丰缺情况、养分间的平衡规律,确定杉木种子园最佳肥料配比和施肥量,以期为闽北低山丘陵红壤分布区杉木种子园提供推荐施肥配方。采用“3414”配方施肥设计方案,对闽北第3代杉木种子园开展N、P、K、Ca、Mg、B、Mo等元素施肥试验。分别设计大量元素氮、磷、钾三因素施肥水平（并增设施用钼肥处理）、中微量元素钙、镁、硼三因素施肥水平,以球果数量（质量）、出籽率、种子产量、胸径等为评价指标,拟合肥料效应函数方程,研究各养分间的作用规律,并提出最佳施肥配比和施肥量。结果表明：种子园土壤N、P、K、Ca、Mg养分含量较低,B含量属于中等水平,而Mo含量较高;N、P、Mg以及N-K、Ca-B肥料联合对种子园产量的影响达到显著或极显著水平,而单施某一肥料效应较小,其中单施K、Ca、B几乎没有效果,而肥料联合施用效果较好。综合效应分析结果,得出种子园最大产量施肥量组合为：每株施尿素100 g+过磷酸钙897 g+氯化钾150 g+石灰150 g+硫酸镁105 g+硼砂75 g,并配施钼肥。N、P₂O₅、K₂O、CaO、Mg、B、Mo的用量依次为46.0、107.7、90.0、75.0、31.4、2.3、5.0 g,其配比为N:P₂O₅:K₂O:CaO:Mg:B:Mo=1.0:2.3:2.0:1.6:0.7:0.05:0.1。多元素配方施肥能很好地改善杉木种子园产量和质量,单株球果产量、球果单粒重、出籽率及种子园产量等指标均比不施肥的母树有大幅度提高。本研究施肥方案,理论上种子园产量可达45.99~95.65 g/株,大量元素施肥试验的产量达到理论产量的80%~86%,中微量元素施肥试验的产量为理论产量的70%左右。现实种子园平均产量大约是预测产量的40%,通过合理配方施肥有望大幅度提高杉木3代种子园产量。     

果蔬型甜玉米新品种京科甜191的选育

京科甜191是以超甜玉米自交系T68为母本,自交系T6302为父本,通过杂交选育而成的果蔬型甜玉米品种。果穗筒型,穗长19.0 cm,穗粗5.3 cm,穗行数16~18行,行粒数36~38粒,粒行整齐。籽粒亮黄色,外观漂亮。平均每667 m2鲜果穗产量900 kg左右,出籽率约67.4%。鲜籽粒含粗蛋白2.98%,粗脂肪1.37%,总糖6.7%,口感甜脆清爽,皮薄无渣。播种至采收平均85.4 d(天),适宜京津冀及类似生态区种植。     

种植年限对设施蔬菜土壤养分和环境的影响

为了给设施蔬菜地合理施肥提供依据,研究了不同种植年限设施蔬菜地土壤理化性质、微生物数量及酶活性变化,以露地土壤为对照(CK),采集种植1 a(年)、3 a、5 a、7 a、9 a、11 a、13 a、15 a、17 a、20 a以及20 a以上的0~20 cm设施蔬菜土壤样品,采用常规土壤理化性质检测方法测定了土壤理化性质和酶活性,采用平板计数法,分析土壤微生物数量。结果表明,设施菜地种植年限与土壤容重呈正相关,与土壤孔隙度呈负相关;设施菜地土壤pH值随种植年限的增加逐年降低,两者呈显著的负相关性;土壤EC值、土壤有机质和速效磷含量都随种植年限的增加而逐年增高,并与种植年限呈显著的正相关性;与CK相比,种植13 a的蔬菜样地土壤全氮和速效钾含量均显著地增加;连续种植20 a以上,设施蔬菜土壤含盐量比对照土壤显著地增加了486.49%。土壤细菌和放线菌数量、过氧化氢酶和碱性磷酸酶活性呈现出先增加后减少的趋势,且都在种植年限为11~13 a时达到最大;真菌数量随着种植年限的增加而增加,而土壤脲酶活性则随种植年限的增加呈下降趋势;转化酶活性随着种植年限的增加保持不变。土壤微生物数量与酶活性之间存在一定程度的相关关系,其中土壤真菌数量与土壤酶活性之间的相关性最为显著。综上所述,种植年限不同的设施菜地,土壤养分失衡,呈现酸化趋势,盐分含量逐年增加,土传真菌病害潜在发生,对设施蔬菜生产不利。     

The M43 domain-containing metalloprotease RcMEP1 in Rhizoctonia cerealis is a pathogenicity factor during the fungus infection to wheat

Wheat(Triticum aestivum L.) is an important staple crop for global human. The necrotrophic fungus Rhizoctonia cerealis is the causal pathogen of sharp eyespot, a devastating disease of wheat. Herein, we identified RcMEP1, a zinc metalloproteaseencoding gene from R. cerealis genomic sequences, and characterized its pathogenesis function. RcMEP1 expressed at markedly-high levels during R. cerealis infection process to wheat. The predicted protein RcMEP1 comprises of 287 amino acid residues and contains a signal peptide and a M43 metalloprotease domain harboring the active site motif(HEVGHWLGLYH). The assays of Agrobacterium tumefaciens-mediated transient expression in Nicotiana benthamiana leaves indicated that RcMEP1 is an apoplastic elicitor of cell death, and that the predicted signal peptide functions and is required for secretion and cell death-induction. The purified RcMEP1 protein and its M43 domain peptide were individually able to induce plant cell death and H2 O2 accumulation, and to inhibit expression of host chitinases when infiltrated into wheat and N. benthamiana leaves, while the M43 domain-deleting peptide and negative control lacked the capacity. Moreover, compared with the control pretreatment, the purified RcMEP1 protein or its M43-domain peptide resulted in enhanced pathogenesis in the inoculated wheat, whereas the M43 domain-deleting peptide failed. These results suggest that RcMEP1 acted as an important pathogenicity factor during R. cerealis infection to wheat and that its signal peptide and M43 domain are required for the secretion and pathogenesis of RcMEP1. This study provides insights into pathogenesis role of M43 domain-containing metalloproteases during R. cerealis infection to wheat.     

沙蒿多糖组合制剂对滩羊羔羊瘤胃菌群多样性的影响

本试验旨在研究沙蒿多糖不同组合制剂对滩羊羔羊瘤胃菌群多样性的影响。选择健康、体重相近的断奶滩羊公羔60只,按体重随机分为4个组,每组15只羊。对照组饲喂基础饲粮,试验1组、试验2组和试验3组分别饲喂在基础饲粮中添加5.5 g/d沙蒿多糖+5.5 g/d包被丁酸钠、5.5 g/d沙蒿多糖+5.5 g/d丁酸甘油酯和5.5 g/d沙蒿多糖+1.1 g/d莫能菌素的试验饲粮。预试期为15 d,正试期为60 d。结果表明:1)与对照组相比,试验1组和试验2组滩羊瘤胃液乙酸、丁酸、总挥发性脂肪酸浓度和乙酸比例显著提高(P<0.05)。2)试验2组的Chao1指数显著高于对照组(P<0.05),试验2组的Shannon指数和Simpson指数有高于对照组的趋势(0.05≤P<0.10)。3)门水平上,与对照组相比,试验1组瘤胃液中软壁菌门的相对丰度显著升高(P<0.05),厚壁菌门和丝状杆菌门的相对丰度有升高的趋势(0.05≤P<0.10);试验2组瘤胃液中绿弯菌门的相对丰度显著升高(P<0.05),而疣微菌门的相对丰度有升高的趋势(0.05≤P<0.10);试验3组瘤胃液中蓝藻菌门和互养菌门的相对丰度显著升高(P<0.05)。4)属水平上,与对照组相比,试验1组瘤胃液中理研菌科RC9的相对丰度显著降低(P<0.05),解琥珀酸菌属和丹毒丝菌属的相对丰度显著升高(P<0.05);试验2组瘤胃液中Sharpea的相对丰度显著降低(P<0.05),假丁酸弧菌属的相对丰度显著升高(P<0.05);试验3组瘤胃液中理研菌科RC9和Sharpea的相对丰度显著降低(P<0.05),互营球菌属的相对丰度有增加的趋势(0.05≤P<0.10)。由此可见,饲粮添加沙蒿多糖组合制剂均可提高滩羊羔羊菌群多样性,改善瘤胃微生物区系,且以添加沙蒿多糖+包被丁酸钠的效果最好。     

河北省杂粮生产现状及生产布局展望

河北省是杂粮生产大省,且种类繁多。为稳定河北省杂粮生产发展,进一步调整河北省种植业结构提供参考依据,本文总结了河北省杂粮的历史生产现状,包括面积、单产、总产以及河北省各地市杂粮的分布,试图探索杂粮的生产布局与趋势,同时针对河北省杂粮历史单产水平变化趋势,分析了造成单产变化的成因,并简单提出建议。最后提出河北省杂粮生产布局的展望,将河北省杂粮生产区域布局划分为优势主产区、战略提升区、稳步发展区三个功能区。     

Screening of antagonistic Trichoderma strains and their application for controlling stalk rot in maize

Maize is one of the major crops in China, but maize stalk rot occurs nationwide and has become one of the major challenges in maize production in China. In order to find an environment-friendly and feasible technology to control this disease, a Trichoderma-based biocontrol agent was selected. Forty-eight strains with various inhibition activities to Fusarium graminearum, and Fusarium verticillioides were tested. A group of Trichoderma strains(DLY31, SG3403, DLY1303 and GDFS1009) were found to provide an inhibition rate to pathogen growth in vitro of over 70%. These strains also prevented pathogen infection over 65% and promoted the maize seedling growth for the main root in vivo by over 50%. Due to its advantage in antifungal activity against pathogens and promotion activity to maize, Trichoderma asperellum GDSF1009 was selected as the most promising strain of the biocontrol agent in the Trichoderma spectrum. Pot experiments showed that the Trichoderma agent at 2–3 g/pot could achieve the best control of seedling stalk rot and promotion of maize seedling growth. In the field experiments, 8–10 g/hole was able to achieve over 65% control to stalk rot, and yield increased by 2–11%. In the case of natural morbidity, the control efficiency ranged from 27.23 to 48.84%, and the rate of yield increase reached 11.70%, with a dosage of Trichoderma granules at 75 kg ha~(-1). Based on these results, we concluded that the Trichoderma agent is a promising biocontrol approach to stalk rot in maize.     

不同新型作用机制杀菌剂对梨树主要病菌毒力及防治流程应用

 为明确多种新型作用机制杀菌剂与引起梨树褐斑病、黑星病、白粉病等病原菌的有效对靶关系及制定梨树主要病害防治流程,采用菌丝生长速率法、离体叶片法与田间药效方法研究新型杀菌剂对靶标病原菌的毒力、对靶标病害的防效及其田间有效应用,建立替代梨树主要病害传统化学杀菌剂的防治流程技术。结果显示,双胍三辛烷基苯磺酸盐在离体叶片法下对褐斑病的防效大于85%,田间药效验证3次用药后7 d防效大于85%、30 d防效大于80%、90 d防效仍大于60%,兼治轮纹病菌其毒力EC₅₀值均小于1 μg·mL^-1。双胍三辛烷基苯磺酸盐、辛菌胺醋酸盐、吩嗪α-2羧酸在离体叶片法下对黑星病防效大于90%且毒力EC₅₀值小于1 μg·mL^-1;田间药效验证1次用药后7 d防效大于80%、30 d防效仍大于75%。噻肟菌酯、硝苯菌酯、丙硫菌唑在离体叶片法下对白粉病的防效大于85%;田间药效验证3次用药后7 d铲除效果大于70%、30 d仍大于60%。丙硫菌唑对黑斑、轮纹病菌毒力EC₅₀值均小于1 μg·mL^-1;吩嗪α-2羧酸同时对褐斑、黑斑、轮纹病菌毒力EC₅₀值小于1 μg·mL^-1。针对梨树主要病害发生期,选用新型杀菌剂替代传统杀菌剂制定防治技术流程,其综合防效达到88.94%。不同新型作用机制杀菌剂在防治梨树主要病害上的应用,能够降低抗药性产生,同时达到有效防治的目的。     

优质晚熟桃新品种‘美帅’

 ‘美帅’是‘大久保’和‘90-1’ (‘八月脆’ ב京玉’) 杂交育成的优质晚熟桃新品种。果实圆形, 平均单果质量275 g, 果面60% ～80%着鲜红色, 外观美丽。可溶性固形物含量12.6%。风味甜, 鲜食品质佳。果实8月中旬成熟, 丰产性强。     

壳寡糖与草莓细胞结合过程的研究

 壳寡糖是一类能有效的诱导植物抗病性的重要激发子。本研究用2 - 氨基吖啶酮(22AMAC)标记壳寡糖, 应用激光共聚焦显微成像技术, 研究了壳寡糖与草莓细胞结合过程。结果表明壳寡糖能通过草莓细胞壁与细胞膜结合, 在细胞壁和细胞膜上有其结合位点, 与壳寡糖的结合具有专一性。