会议时间： 2025年9月25日 特别提示 微信机制调整，点击顶部"仪器信息网" → 右上方"…" → 设为 ★ 星标，否则很可能无法看到我们的推送。 随着全球农业向智能化、精准化方向发展，智慧农业已成为现代农业发展的重要趋势。 国家"十四五"规划纲要提出，"加快发展智慧农业，推进农业生产经营和管理服务数字化改造"。2024年印发的《农业农村部关于大力发展智 慧农业的指导意见》和《全国智慧农业行动计划（2024—2028年）》，为推进智慧农业建设明确方向标、路线图。 在智慧农业的推进过程中，仪器装备作为关键支撑技术，其创新发展至关重要。在中国农业大学120年校庆、信息与电气工程学院成立70周年 之际，仪器信息网特联合中国农业大学信息与电气工程学院主办"智慧农业中的仪器装备创新发展论坛"（2025年9月25日），旨在为仪器设 备研发企业、科研机构、农业企业、高校师生、校友及相关监管部门搭建一个开放、专业的交流平台，共同探讨仪器装备在智慧农业中的创新 应用，推动产业升级，助力智慧农业高质量发展。 主办单位： 中国农业大学信息与电气工程学院、 仪 器信 息网 | ் O 0 | 09:30--09:35 09:35 ...

Core Viewpoint - The article emphasizes the significant role of smart agriculture in enhancing agricultural productivity and efficiency through the integration of technology, particularly in the Changji Hui Autonomous Prefecture of Xinjiang, China. Group 1: Smart Agriculture Development - The central government supports the development of smart agriculture, expanding the application of technologies such as artificial intelligence and big data in agriculture [1] - Changji has implemented smart agriculture practices, leading to a projected 8% increase in yield for major grain and cotton crops, with an average cost reduction of over 150 yuan per mu [1] - The Changji region has established high-standard farmland covering 5.3 million mu and promoted smart fertilization technology over 3.8 million mu [3] Group 2: Technological Integration - The Hui'er Smart Farm utilizes a centralized intelligent control system and various technologies, including soil moisture sensors and smart irrigation systems, to monitor and manage crop growth in real-time [2] - Smart irrigation systems in the farm save approximately 40 cubic meters of water per mu and increase income by around 200 yuan per mu compared to traditional methods [2] - The integration of satellite navigation and drones has led to a mechanization level of 98.55% in planting operations [3] Group 3: Training and Skill Development - Changji has established a high-standard digital agriculture training base, training over 20,000 farmers to improve their technical skills in smart agriculture [3] - Farmers have reported increased confidence in operating smart agricultural equipment after receiving training [3] Group 4: Application Scenarios - The "2+N" application scenario system in Changji includes smart cotton fields and agricultural training bases, promoting the digital transformation of agricultural production [5] - The smart demonstration cotton fields have achieved full mechanization from planting to harvesting, showcasing the effectiveness of smart irrigation and monitoring technologies [5] Group 5: Infrastructure and Resource Management - Changji has focused on enhancing water resource management to support smart agriculture, including the construction of small reservoirs to improve drought resistance [9][10] - The region has built a digital agriculture data platform and a county-level computing center to facilitate data integration and management in agriculture [7] Group 6: Economic Impact and Industry Growth - The development of smart agriculture has led to the establishment of a digital agriculture intelligent equipment industrial park in Manas County, supporting the local economy [11] - The region has cultivated 196 key agricultural enterprises and 1,249 farmer cooperatives, promoting a model of "enterprise + base + farmer" to enhance agricultural productivity [11]

Core Viewpoint - The development of smart agriculture is essential for modern agricultural advancement, focusing on enhancing productivity and efficiency through technology integration [3][8]. Group 1: Smart Agriculture Implementation - The Central Document No. 1 this year emphasizes support for smart agriculture, expanding the application of technologies such as artificial intelligence and big data [1]. - In Xinjiang's Changji Hui Autonomous Prefecture, smart agriculture is being implemented through IoT and big data, allowing for precise monitoring and management of farmland [1][2]. - The highest yield of winter wheat in Changji this year reached 840 kg per mu, with an expected 8% increase in yield for major grain and cotton crops, leading to an average cost reduction of over 150 yuan per mu [1]. Group 2: Technological Advancements - The Hui'er Smart Farm covers 2,687 acres and utilizes a centralized smart control system, enabling real-time monitoring and management of crop growth via a mobile app [2]. - Smart irrigation systems in the farm can save 40 cubic meters of water per mu and increase income by approximately 200 yuan, with fertilizer utilization rates improving by 30% [2]. - The promotion of high-standard farmland construction has reached 5.3 million mu, with 3.8 million mu adopting integrated water and fertilizer application technology [3]. Group 3: Training and Skill Development - Enhancing farmers' skills is a key focus, with over 20,000 farmers trained through a dual-track training model combining theory and practice [3]. - The establishment of high-standard digital agriculture training bases aims to improve the technical application levels among farmers [3]. Group 4: Application Scenarios and Models - Changji is developing a "2+N" application scenario system for smart agriculture, which includes demonstration areas for smart cotton fields and agricultural education integration [5]. - The smart demonstration cotton fields have achieved full mechanization from planting to harvesting, utilizing smart irrigation and growth monitoring technologies [5]. Group 5: Data Integration and Management - The establishment of a smart agriculture big data platform in Manas County has led to the creation of Xinjiang's first county-level digital agriculture computing center [7]. - Digital farmland in Manas County has achieved an average water savings of 30 cubic meters per mu and an increase in yield of 30 kg per mu [7]. Group 6: Industry Development and Economic Impact - The development of smart agriculture is linked to the growth of digital intelligent manufacturing industries, with projects for high-end agricultural production materials and smart water equipment being established [11]. - The integration of agricultural production and processing is crucial for driving smart agriculture, with 196 key agricultural enterprises and 1,249 farmer cooperatives established in Changji [11].

过去种地靠人力、靠经验，现在靠机械、靠智慧、靠数据，眼下，智慧农业正在重塑新疆昌吉州的农业 生产方式。当地发展智慧农业的实践表明，发展智慧农业须筑牢根基，因地制宜、循序渐进。 筑牢智慧农业发展根基，还应树立应用导向，立足本地实际探索数字化、智能化解决方案。新疆是我国 最重要的棉花产区，昌吉州结合本地农业生产实际，加强新型农业基础设施建设，因地制宜打造智慧示 范棉田，取得了明显成效，有力带动了智慧棉田推广。 此外，发展智慧农业，须着力构建新型农技服务体系，进一步重视和加大农技服务，建设一批高水平的 农业技术推广中心，兼顾推广新设备、新技术和个性化服务需求，增强服务建设智慧农田的能力。 发展智慧农业，还切忌一哄而上、盲目上马项目。应结合本地所需，构建好联农带农机制，让智慧农业 发展成果有效惠及广大农户，培育智慧农业发展内生动力，走出一条具有本地特色的智慧农业发展之 路。 （文章来源：经济日报） 昌吉州从丰富应用场景、打造示范农田、推广智能设备、强化技能培训等方面入手，大力发展智慧农 业，这些都是筑牢数智根基的举措。这些举措和取得的成就都不是一朝一夕就能实现的，须长期坚持、 久久为功。 目前，我国广大农民普遍缺乏数 ...

Core Points - The 2025 China Farmers' Harvest Festival main event commenced in Shandong Province, showcasing modern agricultural machinery as a highlight of the celebration [1][5] - The festival emphasizes the theme "Celebrating Agricultural Harvests and Enjoying a Better Life," with over 3,000 related events held nationwide [5] Group 1: Agricultural Machinery - The modern agricultural machinery exhibition featured high-end intelligent machines, including a hybrid tractor with over 600 horsepower and a grain combine harvester with a feeding capacity exceeding 16 kilograms per second [3] - Smaller, specialized machines were also highlighted, such as a mobile water and fertilizer integration machine for precise irrigation and fertilization, and a blueberry harvester utilizing inertial vibration technology for gentle picking [3][5] Group 2: Smart Agriculture - The exhibition showcased advancements in smart agriculture, including a "space-ground integrated agricultural precision service" system that utilizes satellite remote sensing, drones, and IoT technology for comprehensive monitoring of crop conditions [5] - The event aimed to promote the latest achievements in autonomous research and development of high-end intelligent agricultural machinery in China [5] Group 3: Community Engagement - The festival included various community activities such as rural markets, food fairs, and cultural carnivals, aimed at marketing and promoting national premium brands and local specialty agricultural products [5]

Core Viewpoint - The article highlights the successful implementation of a demonstration project for silage corn in Ningxia, which has achieved cost reduction, increased yield, and improved quality through innovative agricultural practices and technologies [2][4]. Group 1: Cost Reduction and Yield Improvement - The demonstration field of 370 acres has reduced total costs by 9.5% and decreased fertilizer usage by 20 kg per acre, achieving an average yield of 4,750 kg per acre, which is an increase of 1,531 kg compared to control fields [2]. - The key quality indicators of silage corn, such as crude protein and acid detergent fiber content, are significantly better than those from conventional fields, demonstrating a successful "cost reduction, quality improvement, and yield increase" strategy [2]. Group 2: Innovative Agricultural Practices - The company has developed an innovative biological nitrogen-fixing product called "Tian Sheng Dan," which allows for efficient nitrogen supply to crops without the excessive use of chemical fertilizers, thus addressing environmental concerns [4]. - The product has been tested across various crops, including carrots and tomatoes, in multiple provinces, with the goal of replacing 50% of nitrogen fertilizer usage in the future [4]. Group 3: Strategic Vision and Market Position - The company aims to transform from a small additive provider to a comprehensive solution provider in the agricultural sector, integrating various technologies such as biological additives, soil conditioners, and seed coating agents [5][7]. - The focus is on creating a win-win model for farmers by reducing costs and increasing income through a combination of biological and digital technologies, which includes customized agricultural inputs and smart irrigation [8]. Group 4: Collaboration and Community Engagement - The company has established partnerships with leading agricultural platforms to promote technology transfer and practical applications, emphasizing the importance of building a community of shared interests in agriculture [8]. - Initiatives such as free training in digital agriculture for farmers aim to enhance their understanding of modern agricultural practices and improve their productivity [8].

央视网消息（焦点访谈）：中国农民丰收节是首个在国家层面为农民设立的专属节日，它定于每年秋分日，旨在庆祝丰收，弘扬农耕文化，也是展示乡 村振兴、"三农"向好的一个大平台。在第八个"中国农民丰收节"到来之际，习近平总书记向全国广大农民和工作在"三农"战线上的同志们致以节日祝贺和诚 挚问候，强调努力建设宜居宜业和美乡村，共同奔向中国式现代化的美好未来。今天我们就先去山东招远金岭镇的大户陈家村，看看那里是怎么过丰收节 的。 尽管今天上午下起了雨，但这丝毫未能减弱大户陈家村乡亲们欢庆自己节日的热情。今年中国农民丰收节的主题是"庆农业丰收，享美好生活"。对他们 来说，丰收来之不易，美好生活来之不易。 山东省招远市金岭镇大户陈家村党委书记陈松海："我们这个村地处钟离河源头，原来计划经济年代，上面13个村，这个村是13个村当中最贫穷的村庄 之一，本来这13个村都不富裕，但是我们村比其他村更贫穷。" 招远穗丰种植专业合作社坐落在傅家村，但耕种范围远不局限于傅家村，而是延伸至多个村落及地区，总面积超过万亩。收获的季节即将到来，种植小 麦、玉米的穗丰种植专业合作社正通过水肥一体加强田间管理，而种植葡萄、苹果的大户陈家村则以跟种植户 ...

浙江省围海建设集团股份有限公司 关于工程项目预中标公示的公告 证券代码：002586 证券简称：*ST围海 公告编号：2025-080 5、公司与招标人不存在任何关联关系 二、中标对公司的影响 本公司及董事会全体成员保证公告内容真实、准确和完整，无虚假记载、误导性陈述或重大遗漏。 浙江省围海建设集团股份有限公司（以下简称"公司"、"本公司"）于2025年9月20日在中国招标投标公共服务平台（网址https://ctbpsp.com/#/bulletinDetail? uuid=763fbf1c-881f-4824-b086- 95b70964f2d7&inpvalue=%E6%9B%B2%E9%9D%96%E5%B8%82%E7%BD%97%E5%B9%B3%E5%8E%BF%E6%99%BA%E6%85%A7&dataSource=0&tenderAg 查询获悉，确定浙江省围海建设集团股份有限公司（牵头方）、云南开发规划设计院有限公司组成联合体为"云南省曲靖市罗平县智慧农业项目工程总承包 （epc）一标段"项目的中标候选人，项目投标报价为14,063.00万元（具体合同金额以双方最终签订的合同为准），公示期 ...

Core Insights - The largest vertical strawberry cultivation smart factory in Southwest China is reaching a critical milestone as strawberries are maturing for the first harvest season after construction [1] - The smart factory is supported by core technology from the Chinese Academy of Agricultural Sciences and is invested in by Chengdu Xingrongxi Group, with operations managed by Sichuan Zhongnong Yixiang Agricultural Technology Co., Ltd [1] Production Technology - The production workshop meets a 100,000-level clean standard and employs advanced "light formula" vertical planting technology, allowing for precise control over light, temperature, moisture, fertilizer, and carbon dioxide levels throughout the growth process [1] - The yield per unit area is 30 to 40 times higher than traditional ground planting methods, with a daily production capacity of 400 pounds of strawberries [1] Environmental Control - As a highly intelligent agricultural production platform, the factory simulates optimal environmental conditions for strawberry growth, overcoming natural climate limitations [1] - This ensures stability throughout the growth process and allows for dual control over fruit quality and food safety [1]

Core Viewpoint - The Sichuan Provincial Agricultural and Rural Affairs Department has issued the "Sichuan Smart Agriculture Action Plan (2025-2028)", aiming to enhance smart agricultural services and establish high-level smart farms, pastures, and fish farms by 2028 [1] Group 1: Smart Agriculture Development - Sichuan has initiated three major actions with ten key tasks to improve public service capabilities, expand key areas, and innovate applications in smart agriculture [1] - By 2028, the plan targets the establishment of 200 high-level smart farms, 50 smart pastures, and 20 smart fish farms across the province [1] Group 2: Technological Integration in Agriculture - Smart agriculture will incorporate technology throughout the entire agricultural process, including seedling cultivation, pest detection, and mechanized operations [2] - The use of drones for planting can cover 50 acres in a single day, significantly enhancing efficiency [2] - Smart farms will utilize environmental monitoring, precise management of water, fertilizers, and pesticides, and intelligent machinery to improve crop production [2] Group 3: Smart Pastures and Fish Farms - Smart pastures will focus on livestock such as pigs, cattle, and sheep, employing technologies for monitoring health, disease diagnosis, and automated feeding [2] - Five smart fish farms will be established, focusing on specific fish species and incorporating monitoring and management systems [3] Group 4: Data Platform Construction - Sichuan plans to build a provincial agricultural and rural big data platform to facilitate data sharing and integration across various departments [4][5] - The platform will enable dynamic regulation and precise allocation of resources like water, fertilizers, and pesticides through data analysis [5] - A unified agricultural land map will be created, providing detailed digital records for each piece of land, enhancing land use efficiency [5] Group 5: Local Implementation and Expectations - Local leaders express optimism that the establishment of digital records will significantly improve land development and utilization efficiency, helping to maintain arable land boundaries [6]