Bioecology of some key cashew insect pests and diseases in diverse habitats and landscapes in Tanzania

Cashew (Anacardium occidentale) is an economically important cash crop for many rural households in Tanzania. However, its production is constrained by some insect pests and diseases. As a prerequisite for the development of a more sustainable integrated insect pest and disease management strategy for cashew, information on the biology and ecology of the key insect pests and diseases in a changing environment, and on influencing biotic and abiotic factors, is needed. Surveys were conducted in the major cashew nut‐producing areas of Tanzania for two seasons: August to December, 2009, and August to December, 2010. Data on number of infested and infected shoots by key insect pests and diseases, natural enemies and associated farmer practices, namely synthetic pesticide use and intercropping systems, were collected from different subzones within agroecological zones. Our data showed that abundance and diversity of key cashew insect pests and diseases were influenced by agroecological zones and subzones. Intercropping was more commonly practised in the northern than in the southern zone. Agrochemicals were most frequently used in the southern agroecological zone and affected the occurrence of natural enemies, notably the weaver ant that was more abundant in the northern zone. Furthermore, our findings revealed that Helopeltis sp. and the powdery mildew remained the major constraints to cashew nut production in Tanzania.     

苎麻田灯下主要害虫及天敌成分分析

为了科学利用频振式杀虫灯防治苎麻Boehmeria nivea(Linn)Gaudich害虫,明确苎麻田主要灯诱昆虫种类及其灯下诱集动态,于2012年4月~9月在湖北省咸宁地区进行了苎麻田频振式杀虫灯诱虫试验。结果表明：频振式杀虫灯在苎麻田诱杀害虫4目9科19种,地下害虫种类较多,主要包括金龟子、叩甲、天牛、蝼蛄、拟步甲和地老虎等6类。地下害虫又以金龟子为主,主要有华北大黑鳃金龟、铜绿丽金龟、黑绒鳃金龟、斑喙丽金龟、鲜黄鳃金龟、暗黑鳃金龟等6种。金龟子从4月中旬至9月初均灯下可见,以6~7月为诱集高峰期。主要诱集天敌昆虫为步甲、隐翅甲、寄生蜂和瓢虫等4类,除步甲外,其它3类诱集量相对较小,步甲诱集高峰期为4月下旬至5月上旬。频振式杀虫灯最佳使用时间为6~7月,在此期间诱杀苎麻田金龟子类地下害虫数量大、种类多,且避免大量杀伤天敌昆虫。频振式杀虫灯在苎麻田金龟子类地下害虫预测预报和防治中具有较好的推广应用前景。     

1991-2010年宁夏水稻病虫害发生特征与经济损失分析

水稻病虫害发生种类繁多、暴发频繁,是威胁宁夏水稻稳产、高产的重要因素,但对其变化趋势与实际危害损失不清楚.基于宁夏水稻统计数据、稻田覆盖类型遥感数据和水稻产量数据,分析1991年至2010年宁夏水稻病虫害发生特征与经济损失情况.结果表明:1991年到2010年期间,宁夏水稻病害、虫害年均发生面积分别为5.3万hm2和2.0万hm2,其年均防治面积分别为8.4万hm2和1.6万hm2;水稻病害的发生程度下降了23.10％,防治程度上升了77.30％.20年间宁夏水稻虫害的发生面积、发生程度、防治面积和防治程度均显著增加.防治水稻病害、虫害后,分别挽回稻谷为2.67万吨、0.28万吨,其挽回损失量在20年期间分别增加了55.15％、2775.0％,表明水稻病虫害防治意义重大.由于气候变化等诸多因子,导致1991年到2010年宁夏水稻病害、虫害年均造成的实际稻谷损失量分别为0.71万吨与0.13万吨,水稻病害实际损失量在0值附件波动、虫害呈现波动增加趋势,说明水稻病害防控效果好、虫害的防控还有提升的空间.从全区各市县分布来看,水稻病虫害主要分布在宁夏的银北地区.为有效地防止或减少病虫害对水稻产量的损失,应加强农田景观变化和气候变化等对水稻病虫害发生与灾变的风险评估和监测预警,开展区域性水稻病虫害综合治理研究,并建立相应的防控新对策与技术体系.     

Occurrence and molecular identification of the zoysiagrass mite Aceria zoysiae (Acari: Eriophyidae) in turfgrasses in Korea

Mites are one of the serious pests of turfgrass. Our survey of turfgrass fields from 2013 to 2015 in Korea showed that the occurrence of leaf chlorotic symptom has gradually extended to at least 60% of the examined golf courses. We identified the zoysiae mite Aceria zoysiae in most damaged zoysiagrasses. Artificial infestation of A. zoysiae into zoysiagrasses in pots resulted in symptoms of chlorosis and marginal rolling of the leaves within 3 weeks. We firstly determined the nucleotide sequence of mitochondrial cytochrome c oxidase subunit I (COI) and internal transcribed spacer 2 (ITS2) of the nuclear ribosomal DNA region of A. zoysiae. The variations in COI and ITS2 between A. zoysiae and other species of the genus were 20.9%–43.0% and 7.5%–67.3%, respectively, suggesting significant genetic divergence within the genus. Our study provides valuable information for the rapid diagnosis and infestation monitoring of A. zoysiae in turfgrass fields.     

Corporate and Product Carbon Footprint under Compound Hybrid Analysis: Application to a Spanish Timber Company

The European Union (EU) is advancing steadily toward the stabilization of atmospheric greenhouse gas concentrations. Various sectors are now obliged to make reductions, and new policies based on the carbon footprint are being encouraged. However, voluntary reporting of so‐called scope 3 emissions is hindering successful implementation of these policies. In this study, we present a tiered hybrid analysis to report emissions according to the ISO/TR 14069 standards and to obtain complete measures of scope 3 emissions. A process analysis for scope 1 and scope 2 emissions is complemented with a multiregional input‐output analysis for upstream scope 3 emissions. This novel approach is applied to the case study of a Spanish timber company. Its total carbon footprint in 2011 was 783,660 kilograms of carbon‐dioxide equivalent, of which 88% correspond to scope 3 emissions. These emissions are globally distributed; 71% are from European countries, followed by 8% from emerging economies (Brazil, Russia, India, Indonesia, Australia, and Turkey), 5% from China, and, finally, 16% from the rest of the world. We identify and discuss the advantages and disadvantages of this novel approach, the European implementation of which could be highly effective in reducing global carbon emissions.     

Climate change and voltinism of Mythimna sequax: the location and choice of phenological models matter

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Mitochondrial DNA genomes of five major Helicoverpa pest species from the Old and New Worlds (Lepidoptera: Noctuidae)

Five species of noctuid moths, Helicoverpa armigera, H. punctigera, H. assulta, H. zea, and H. gelotopoeon, are major agricultural pests inhabiting various and often overlapping global distributions. Visual identification of these species requires a great deal of expertise and misidentification can have repercussions for pest management and agricultural biosecurity. Here, we report on the complete mitochondrial genomes of H. assulta assulta and H. assulta afra, H. gelotopoeon, H. punctigera, H. zea, and H. armigera armigera and H. armigera conferta’ assembled from high‐throughput sequencing data. This study significantly increases the mitogenome resources for these five agricultural pests with sequences assembled from across different continents, including an H. armigera individual collected from an invasive population in Brazil. We infer the phylogenetic relationships of these five Helicoverpa species based on the 13 mitochondrial DNA protein‐coding genes (PCG's) and show that two publicly available mitogenomes of H. assulta ( KP015198 and KR149448 ) have been misidentified or incorrectly assembled. We further consolidate existing PCR‐RFLP methods to cover all five Helicoverpa pest species, providing an updated method that will contribute to species differentiation and to future monitoring efforts of Helicoverpa pest species across different continents. We discuss the value of Helicoverpa mitogenomes to assist with species identification in view of the context of the rapid spread of H. armigera in the New World. With this work, we provide the molecular resources necessary for future studies of the evolutionary history and ecology of these species.     

Insect pest management in the age of synthetic biology

Arthropod crop pests are responsible for 20% of global annual crop losses, a figure predicted to increase in a changing climate where the ranges of numerous species are projected to expand. At the same time, many insect species are beneficial, acting as pollinators and predators of pest species. For thousands of years, humans have used increasingly sophisticated chemical formulations to control insect pests but, as the scale of agriculture expanded to meet the needs of the global population, concerns about the negative impacts of agricultural practices on biodiversity have grown. While biological solutions, such as biological control agents and pheromones, have previously had relatively minor roles in pest management, biotechnology has opened the door to numerous new approaches for controlling insect pests. In this review, we look at how advances in synthetic biology and biotechnology are providing new options for pest control. We discuss emerging technologies for engineering resistant crops and insect populations and examine advances in biomanufacturing that are enabling the production of new products for pest control.     

The population dynamics of three polyphagous owlet moths (Lepidoptera: Noctuidae) and the influence of meteorological factors and ENSO on them

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