The paper discusses the barriers of integration of management systems (IMS). A model based on process is explored, It is indicated that integrating management systems should not ignore the characteristics of the man...The paper discusses the barriers of integration of management systems (IMS). A model based on process is explored, It is indicated that integrating management systems should not ignore the characteristics of the management systems, especially scope issues. IMS needs to take into the continuous improvement.展开更多
A 10 year research programme at Lincoln University, investigating the use of Trichoderma species for biological control of soil-borne diseases of vegetable crops, has resulted in the development of two commercial prod...A 10 year research programme at Lincoln University, investigating the use of Trichoderma species for biological control of soil-borne diseases of vegetable crops, has resulted in the development of two commercial products. Trichodry TM. 6S and Trichoflow TM. 6S based upon Trichoderma hamatum isolate 6SR4, are used to control Sclerotinia lettuce drop disease. The Trichodry 6S product is formulated as a dry flake, which is incorporated into nursery seedling mix and the Trichoflow 6S is a wettable powder which is used as a top-up drench before planting. The treatment stimulates seedling establishment and vigour and protects the developing seedling from Sclerotinia minor infection after transplanting in the field.The second commercial product is Trichopel TM. Ali 52, based upon Trichoderma atroviride isolate C52, which is used to control Sclerotium cepivorum, the causal agent of Allium white rot disease. The product is formulated as a granule and applied into the furrow at planting time. The fungus proliferates in the rhizosphere region and protects the growing seedling from pathogen attack by a combination of nutrient competition, antibiosis and mycoparasitism. The use of Trichopel Ali 52 under low to medium disease pressure in Pukekohe, the main vegetable growing region of New Zealand, gave a three fold cost benefit through yield increases in the 2003-2004 season. Current field development work involves the use of a wettable powder formulation of T. atroviride distributed via a T-tape irrigation system to target mid-season applications of the product to the onion roots. Both products perform well under low to moderate disease pressure but, when there is high disease pressure, an integrated programme is required to give satisfactory control. Current research is focused on gaining a greater understanding of the biotic and abiotic factors, which influence biocontrol activity under field conditions as a means to enhance integrated control approaches. For example, T. atroviride C52, when applied to the planting furrow, is compatible with procymidone, benomyl and captan but not thiram when applied as onion seed treatments. It is also compatible with the majority of other fungicides applied to the onion crop to protect against foliar diseases such as Botrytis and downy mildew. The product can be integrated with the use of the germination stimulant diallyl disulphide (DADS) as long as the Trichoderma product is applied at least two weeks after DADS application. The product is not compatible with the use of nitrogen fertilisers due to the sensitivity of the Trichoderma mycelium to high N, thus, care must be taken to separate fertilizer application from that of the biocontrol product. Expansion of the range of crop diseases targeted by the biocontrol products is currently under investigation with promising results obtained against a number of Botrytis diseases.展开更多
To achieve the purpose of reducing farm non-point source pollution, we integrated site specific nitrogen management precise irrigation, controlled drainage, and wetland eco-repair system in dike area of Taihu basin. D...To achieve the purpose of reducing farm non-point source pollution, we integrated site specific nitrogen management precise irrigation, controlled drainage, and wetland eco-repair system in dike area of Taihu basin. During investigation, it had given prominence for the water and fertilizer coupling effects of precise irrigation and site specific nutrient management, the characteristics of integration on controlled irrigation, controlled drainage and wetland ecosystem non-point source pollution control. Then the water and fertilizer integrated management mode of paddy field was put forward in Taihu basin where the water production efficiency increased to 1.64 kg. m-3, water saved 37.8%, fertilizer use efficiency raised 15,4%, yield raised 10%, and N, P load decreased 26%-72%. The modern agricultural and farmland ecosystems that control and cut down the farm non-point source pollution came into being, which can be a reference by Taihu basin to control its agricultural non-point source pollution and eutrophicated water body.展开更多
A decision support system for IPM of the pine caterpillar, Dendrolimus spectabilis Buter, DS-IPM-DSS, has recently been developed using a GW-0520 CH microcomputer. The software system consists of , a Model Base and it...A decision support system for IPM of the pine caterpillar, Dendrolimus spectabilis Buter, DS-IPM-DSS, has recently been developed using a GW-0520 CH microcomputer. The software system consists of , a Model Base and its Management System, a Database and its Management System, a Control Program, a Problem Analysis Program, and a User’s Interface System. Also further development aimed at expanding the DS-IPM-DSS into a more generalized and flexible package, i. e., making it helpful in creating computer-based system for other forest insect pests, are discussed.展开更多
Ocean is home town of wind and rain, treasury of resources. To exploit and use ocean will make great contribution to people’s existence and development. China is a great oceanic country with pre cinct sea area of 3,0...Ocean is home town of wind and rain, treasury of resources. To exploit and use ocean will make great contribution to people’s existence and development. China is a great oceanic country with pre cinct sea area of 3,000,000 km2. The eastern coastal region with only 60 km width, 15 % area and 40% of population of China, has created about 60% of GDP and has become the most developed region. But marine disaster in China is frequent and serious. From statistical data, economy loss made by surge, billow, sea ice, tsunami, red tide, oil spill, coast erosion, bay deposit, sea water intrusion, sea level rise, land salinization, sea water pollution, etc. increase quickly. Economy loss per year is one billion in the l980s, 10 billion in the l990s, exceeded 20 billion in 1996, and 30 billion in 1997. About 80% of it happened in the coastal area. So, marine disaster at present has become obstacle of society progress and economy development in coastal area. To mitigate marine disaster has become need for the economy development, also important task of the integrated coastal zone management. In this article, we briefly introduce countermeasures for marine disaster prevention, coastal zone management, and achievements made in the past 50 years, its problems now confronted, and the main countermeasures in the 21St century.展开更多
林业有害生物的严重危害已成为影响森林安全、生态安全和生态文明建设的重要因素。随着中国以大面积人工林建设为主要特征的国土绿化行动的持续开展,病、虫、鼠等有害生物对林业建设成果造成了严重危害和巨大威胁。本文在分析中国林业...林业有害生物的严重危害已成为影响森林安全、生态安全和生态文明建设的重要因素。随着中国以大面积人工林建设为主要特征的国土绿化行动的持续开展,病、虫、鼠等有害生物对林业建设成果造成了严重危害和巨大威胁。本文在分析中国林业有害生物发生现状的基础上,梳理了林业有害生物防控策略形成的历史背景,回顾了代表性重大林业有害生物的防控实践。随着松毛虫、光肩星天牛、松材线虫病等防控实践的有效探索,以及基于对森林生态系统的结构与功能特点,生态调控(ecological pest management,EPM)赋予了林业有害生物综合治理(integrated pest management,IPM)策略新的时代内涵和行业属性。林业有害生物生态调控是综合治理策略的提升和具像化,是“预防为主,综合防治”的主要发展方向。论文展望了林业有害生物生态调控的发展方向与重点领域,以期为防控能力的提升提供科学借鉴。展开更多
文摘The paper discusses the barriers of integration of management systems (IMS). A model based on process is explored, It is indicated that integrating management systems should not ignore the characteristics of the management systems, especially scope issues. IMS needs to take into the continuous improvement.
文摘A 10 year research programme at Lincoln University, investigating the use of Trichoderma species for biological control of soil-borne diseases of vegetable crops, has resulted in the development of two commercial products. Trichodry TM. 6S and Trichoflow TM. 6S based upon Trichoderma hamatum isolate 6SR4, are used to control Sclerotinia lettuce drop disease. The Trichodry 6S product is formulated as a dry flake, which is incorporated into nursery seedling mix and the Trichoflow 6S is a wettable powder which is used as a top-up drench before planting. The treatment stimulates seedling establishment and vigour and protects the developing seedling from Sclerotinia minor infection after transplanting in the field.The second commercial product is Trichopel TM. Ali 52, based upon Trichoderma atroviride isolate C52, which is used to control Sclerotium cepivorum, the causal agent of Allium white rot disease. The product is formulated as a granule and applied into the furrow at planting time. The fungus proliferates in the rhizosphere region and protects the growing seedling from pathogen attack by a combination of nutrient competition, antibiosis and mycoparasitism. The use of Trichopel Ali 52 under low to medium disease pressure in Pukekohe, the main vegetable growing region of New Zealand, gave a three fold cost benefit through yield increases in the 2003-2004 season. Current field development work involves the use of a wettable powder formulation of T. atroviride distributed via a T-tape irrigation system to target mid-season applications of the product to the onion roots. Both products perform well under low to moderate disease pressure but, when there is high disease pressure, an integrated programme is required to give satisfactory control. Current research is focused on gaining a greater understanding of the biotic and abiotic factors, which influence biocontrol activity under field conditions as a means to enhance integrated control approaches. For example, T. atroviride C52, when applied to the planting furrow, is compatible with procymidone, benomyl and captan but not thiram when applied as onion seed treatments. It is also compatible with the majority of other fungicides applied to the onion crop to protect against foliar diseases such as Botrytis and downy mildew. The product can be integrated with the use of the germination stimulant diallyl disulphide (DADS) as long as the Trichoderma product is applied at least two weeks after DADS application. The product is not compatible with the use of nitrogen fertilisers due to the sensitivity of the Trichoderma mycelium to high N, thus, care must be taken to separate fertilizer application from that of the biocontrol product. Expansion of the range of crop diseases targeted by the biocontrol products is currently under investigation with promising results obtained against a number of Botrytis diseases.
基金Supported by NSFC (50839002)Society Development Program of Jiangsu Province (BS2007139)
文摘To achieve the purpose of reducing farm non-point source pollution, we integrated site specific nitrogen management precise irrigation, controlled drainage, and wetland eco-repair system in dike area of Taihu basin. During investigation, it had given prominence for the water and fertilizer coupling effects of precise irrigation and site specific nutrient management, the characteristics of integration on controlled irrigation, controlled drainage and wetland ecosystem non-point source pollution control. Then the water and fertilizer integrated management mode of paddy field was put forward in Taihu basin where the water production efficiency increased to 1.64 kg. m-3, water saved 37.8%, fertilizer use efficiency raised 15,4%, yield raised 10%, and N, P load decreased 26%-72%. The modern agricultural and farmland ecosystems that control and cut down the farm non-point source pollution came into being, which can be a reference by Taihu basin to control its agricultural non-point source pollution and eutrophicated water body.
文摘A decision support system for IPM of the pine caterpillar, Dendrolimus spectabilis Buter, DS-IPM-DSS, has recently been developed using a GW-0520 CH microcomputer. The software system consists of , a Model Base and its Management System, a Database and its Management System, a Control Program, a Problem Analysis Program, and a User’s Interface System. Also further development aimed at expanding the DS-IPM-DSS into a more generalized and flexible package, i. e., making it helpful in creating computer-based system for other forest insect pests, are discussed.
文摘Ocean is home town of wind and rain, treasury of resources. To exploit and use ocean will make great contribution to people’s existence and development. China is a great oceanic country with pre cinct sea area of 3,000,000 km2. The eastern coastal region with only 60 km width, 15 % area and 40% of population of China, has created about 60% of GDP and has become the most developed region. But marine disaster in China is frequent and serious. From statistical data, economy loss made by surge, billow, sea ice, tsunami, red tide, oil spill, coast erosion, bay deposit, sea water intrusion, sea level rise, land salinization, sea water pollution, etc. increase quickly. Economy loss per year is one billion in the l980s, 10 billion in the l990s, exceeded 20 billion in 1996, and 30 billion in 1997. About 80% of it happened in the coastal area. So, marine disaster at present has become obstacle of society progress and economy development in coastal area. To mitigate marine disaster has become need for the economy development, also important task of the integrated coastal zone management. In this article, we briefly introduce countermeasures for marine disaster prevention, coastal zone management, and achievements made in the past 50 years, its problems now confronted, and the main countermeasures in the 21St century.
文摘林业有害生物的严重危害已成为影响森林安全、生态安全和生态文明建设的重要因素。随着中国以大面积人工林建设为主要特征的国土绿化行动的持续开展,病、虫、鼠等有害生物对林业建设成果造成了严重危害和巨大威胁。本文在分析中国林业有害生物发生现状的基础上,梳理了林业有害生物防控策略形成的历史背景,回顾了代表性重大林业有害生物的防控实践。随着松毛虫、光肩星天牛、松材线虫病等防控实践的有效探索,以及基于对森林生态系统的结构与功能特点,生态调控(ecological pest management,EPM)赋予了林业有害生物综合治理(integrated pest management,IPM)策略新的时代内涵和行业属性。林业有害生物生态调控是综合治理策略的提升和具像化,是“预防为主,综合防治”的主要发展方向。论文展望了林业有害生物生态调控的发展方向与重点领域,以期为防控能力的提升提供科学借鉴。
