丛枝菌根真菌接种对白车轴草耐盐性的影响

丛枝菌根真菌(AMF)可与植物共生形成复杂的菌丝网络,影响植物生长及抗逆能力。目前关于AMF对白车轴草耐盐性的影响尚存争议,本研究采用盆栽试验,研究在盐胁迫条件下(NaCl浓度为150 mmol·L^-1),接种AMF对拉丁诺白车轴草耐盐性的影响。结果表明,在盐胁迫条件下,与对照相比,白车轴草的生长与生理指标均受到抑制。盐胁迫下接种AMF后,白车轴草株高、干重、PSⅡ最大光能转换效率和相对含水量均有增加,丙二醛(MDA)含量以及相对电导率有所降低,渗透调节物质均有提高,其中可溶性糖(SS)和游离脯氨酸(Pro)含量分别提高了32.03%和9.42%。说明盐胁迫抑制白车轴草的生长,接种AMF增强了白车轴草抗逆适应能力,促进白车轴草的生长,增加渗透调节物质含量,提高白车轴草耐盐胁迫的能力。     

美国食用菌产业发展报告

通过利用美国农业部、农业统计局及相关行业网站发布的产业数据、新闻报道和研究报告,对美国食用菌产业的变化趋势及其原因进行梳理。结果发现,随着生产效率的提高美国食用菌产量和产值逐年提高,但通过不断的兼并收购,食用菌生产者的数量明显下降。在政府组织和行业自发的行业组织和协调下,美国食用菌行业竞争有序,食用菌价格稳定,食用菌产业创造了良好的经济、社会和生态效益。美国是世界食用菌生产强国,研究美国食用菌生产和消费变化趋势,了解食用菌产业组织的活动和经验,有助于引导我国食用菌产业的健康发展。     

《菌谱》中管窥宋代食用菌饮食文化

我国宋代时期整体政治稳定、经济繁荣,人文发展得到空前提高,良好环境为我国饮食文化的繁荣奠定了基础。此时期的饮食文化中开始注重饮食营养的全面化,讲究食材烹饪的精细化。《菌谱》作为我国最早撰写的食用菌专著,是宋代对食用菌饮食的整理性文献。解读《菌谱》中食用菌的饮食文化,有助于通过结合食用菌饮食类别,研究宋代食用菌饮食文化的特征,这不仅可以了解当时人们的食用菌饮食习惯,更能折射出宋代食用菌文化的丰富。     

“一带一路”背景下河南食用菌出口贸易发展研究

十多年来我国食用菌产量快速增长,食用菌总产量占全球75%以上。2004—2018年,河南食用菌产量、出口量连续居全国第一。河南自然资源、生产成本的优势,以及相关政策和科研创新的推动,形成了河南食用菌出口贸易发展的有利因素;但由于规划缺位、研发力量薄弱、工厂化发展滞后,河南食用菌在国际市场上还存在品种单一、结构单一、市场过于集中的问题。为此,建议突出食用菌产业的战略地位,做好顶层设计,充分利用好“一带一路”的机遇和本省的资源优势,加强食用菌出口供应链管理,加大研发推广和产业升级力度,营造一流发展环境,提升食用菌国际市场品质,将河南食用菌供应链延伸到更多的国家和地区。     

韩国Ophiostomatoid真菌与棘胫小囊树皮甲虫的互作研究

棘胫小囊树皮甲虫(Coleopterla:Scolytidae)是一种与树木或新鲜木材兰染真菌相关的昆虫。本研究用不同种的松树制备的圆木诱捕、采集棘胫小囊树皮甲虫，并对其种类进行了比较。自4月至7月，从Pinus．rigida和Pinus．korniensis诱捕圆木上收集昆虫，共获得了10种树皮甲虫，其中Hylurgops interstitialis是P．koraiensi上最常见的甲虫，而Tomicus piniperda则在P．rigida上最常见。5月是H．interstitialis出现的高峰期，T.piniperda出现的高峰期是在4月。在6月上旬，新的成虫自蛹中孵化而出。为了研究树皮甲虫的种群与树木兰染真菌分离获得的频率的相关性，采用选择性培养基自成虫、卵／幼虫和树皮甲虫的虫道分离真菌。研究发现在越冬成虫和虫道上兰染真菌出现的频率分别是100％和94％，但在孵化的卵或刚孵出的幼虫上出现的频率相对较低。从兰染真菌分离出现的频率上看，收集的时间与树皮甲虫的种群没有显著的相关性。于4月20日可以首次观察到在虫道的下面出现变色现象，2周内，木材变色迅速增长，100％变色。对这些分离获得真菌进行鉴定，发现Leptographium spp出现频率高于Ophiostoma spp．。     

PRA参与式方法探讨广西食用菌生产问题

运用参与式农村评估方法,探讨分析广西食用菌生产发展的现状、问题及对策,得出结论,提出建议。     

Effect of biocontrol agents and biofertilizers on root rot,yield, harvest index and nutrient uptake of cassava (Manihot esculanta Crantz)

Cassava is an important subsidiary food and industrial raw material in the tropics. Root rot disease, caused by Phytophthora palmivora, poses a serious threat to cassava cultivation in Tamil Nadu, India. Field experiments (2008–09) were conducted to study the effect of biocontrol agents (Trichoderma spp. and Pseudomonas fluorescens) and biofertilizers (Azospirillum, vesicular–arbuscular mycorrhizal fungi and phosphorus-solubilizing bacteria) on root rot, yield, harvest index and nutrient uptake of cassava at two NPK rates. The design of the experiment was a split plot with two NPK rates, recommended and 50% recommended rate, as the main plot treatments and five biocontrol agents and biofertilizers as subplot treatments. The results clearly indicated that use of a bioinoculants consortium significantly reduced root rot infection/disease incidence over uninoculated controls. Azospirillum significantly improved the yield of cassava at 50% of the recommended rate of NPK. NPK rates had no significant impact on harvest index of cassava and Trichoderma and vesicular–arbuscular mycorrhizal fungi resulted in a higher harvest index even at 50% of the recommended NPK rate. Nitrogen, phosphorus and potassium uptake was significantly improved when treated with biofertilizers and/or a consortium.     

地图衣的2个中国新记录种

地图衣主要分布于极地和温带高海拔地区,全世界约有200种。中国已经发现的地图衣仅有28种。该文报道了地图衣的2个中国新记录种(Rhizocarpon concentricum和R.geminatum),并提供了这2种地衣的详细特征照片。     

Interaction of Cd-hyperaccumulator Solanum nigrum L. and functional endophyte Pseudomonas sp. Lk9 on soil heavy metals uptake

Bioaugmentation is a promising method for assisting phytoextraction of heavy metals from contaminated soil, and the development of bioaugmentation-assisted phytoextraction requires the understanding of the mechanism involved in the interaction between plants and inocula. In this study, a pot study was conducted to evaluate the effect of bacterial endophyte Pseudomonas sp. Lk9 which can produce biosurfactants, siderophores and organic acids on the growth and metal uptake of Cd-hyperaccumulator Solanum nigrum L. growing in multi-metal-contaminated soil. The results revealed that Lk9 inoculation could improve soil Fe and P mineral nutrition supplies, enhance soil heavy metal availability, and affect host-mediated low-molecular-weight organic acids secretion, thereby significantly increasing S. nigrum shoot dry biomass by 14% and the total of Cd by 46.6%, Zn by 16.4% and Cu by 16.0% accumulated in aerial parts, compared to those of non-inoculated control. The assessment of phytoextraction showed that Lk9 inoculation elevated the bioaccumulation factor of Cd (28.9%) and phytoextraction rates of all metals (17.4%, 48.6% and 104.6% for Cd, Zn and Cu, respectively), while the translocation factors had negligible difference between Lk9 inoculation (3.30, 0.50 and 0.40 for Cd, Zn and Cu, respectively) and non-inoculated control (2.95, 0.53 and 0.42 for Cd, Zn and Cu, respectively). It was also found that the symbiotic association between S. nigrum and Lk9 significantly increased the soil microbial biomass C by 39.2% and acid phosphatase activity by 28.6% compared to those in S. nigrum without Lk9. This study would provide a new insight into the bioaugmentation-assisted phytoextraction of heavy metal-contaminated soils.     

AM真菌对油茶生长和抗旱性的影响

AM（Arbuscular mycorrhiza）真菌能够促进植物生长，提高植物的抗逆性。AM真菌对油茶生长和抗旱性的影响的研究表明：接种AM真菌促进了油茶生长，改善了油茶叶片水分状况，增强了叶片细胞质膜的稳定性，使可溶性糖含量增加。