智慧农业以信息和知识为核心要素，通过互联网、物联网、大数据、人工智能和智能装备等现代信息技 术、设备，与农业深度跨界融合，实现农业生产全过程的信息感知、定量决策、智能控制、精准投入、 个性化服务的全新农业生产方式，是农业信息化发展从数字化到网络化再到智能化的高级阶段。智慧农 业主要包括智慧种植、智慧畜牧、智慧渔业、智能农机、智慧园区等。 内容概况：在农业信息化和农业现代化的发展进程中，随着全球卫星定位系统、无人智能设备等前沿科 技在农业生产经营全过程领域的广泛应用，智慧农业是对推进农业信息化、现代化进程具有重要意义的 高级农业发展阶段。智慧农业通过应用先进信息技术、推进生产领域的智能化、优化农业生产方式，不 断提高农业现代化水平，进而提高农业生产力及资源利用效率，为乡村全面振兴注入创新动能和高质量 发展引擎。近年来，随着物联网、大数据、人工智能等技术的不断发展，以及政策的持续支持，中国智 慧农业市场规模保持快速增长的态势。数据显示，中国智慧农业行业市场规模从2017年的384.74亿元增 长至2025年的1200亿元，年复合增长率为15.28%。智慧农业是乡村振兴的重要支撑，也是农业现代化 的必然趋势。未来， ...

本报讯 （记者 赖昊拓） 记者2月27日从福建省供销社获悉，福建省本轮农资冬储工作已接近尾声。截 至2月底，全省已完成2025—2026年度化肥储备605852吨，其中优质肥423495吨、小化肥182357吨，储 备农药2165.67吨。农资冬储财政贴息已纳入全省各地预算，2025—2026年度全省已落实贴息1893.24万 元。 今年春耕期间，福建省供销社计划开展省级农资下乡活动8场。同时，进一步强化农资质量管理和应急 保障机制，组织开展农资经营企业诚信经营检查，确保农民用上"放心肥、放心药"。 开春以来，为扎实做好春耕农资保供工作，福建省供销社系统聚焦"绿色农资"升级行动，深入开展"咨 询问诊+开方配药+连锁配送+田头指导+试验示范"全链条服务。通过举办新品发布会、现场农民会等方 式，大力推广植保无人机等现代化农业技术，免费为农户提供20多套套餐施肥方案，指导科学用药用 肥。 ...

（来源：新华日报） □ 本报记者 赵芳 通讯员 司伟 柏凯楠 2月27日清晨，连云港市赣榆区塔山镇的麦田里氤氲着雨后的湿润气息，种粮大户林杰踩着田埂快步穿 梭，望着吸足雨水、舒展叶片的麦苗，紧锁多日的眉头彻底舒展："这场雨下得太及时了，土墒正好， 这拔节肥可不能耽误！"随后，他抬手一挥，三台植保无人机应声腾空，沿着预设航线在麦田上空匀速 巡航，细密的肥料颗粒如雨雾般均匀洒落，在晨光中划出一道道银亮的弧线。 田埂另一侧的桑行村麦田里，赣榆区农业技术推广中心技术员蹲在田边，指尖捏起一把湿润泥土轻轻揉 搓，又拨开麦苗根部仔细察看根系长势，向围拢的农户讲解："苗弱的要适当增加尿素，苗壮的就要控 一控，分类施策才能让弱苗转壮、壮苗稳长。"农户们听得认真并不时记录，携带的自走式喷杆喷雾机 早已加满配好的肥料，随时准备下地作业。 机手操控遥控器，屏幕上实时显示作业轨迹，"这'铁疙瘩'可比人工利索多了，它有循环巡航和自动避 障功能，药液不沉淀、喷洒无死角，一天能管400亩地。昨天雨一停，我就联系农技部门今天一早带着 设备来抢工，这农时可耽误不得。"林杰说话间，无人机完成一片地块的作业，稳稳降落，另一台随即 升空补位，田间呈现 ...

央视网消息：在重庆开州区，当地农业、供销等部门提前行动，通过保障农资供应、落实农机补贴等措施，全力打好春耕生 产"第一仗"，为全年粮食丰产丰收打下坚实基础。 农资储备足，还要农机设备强。在开州区一家农机销售门店，微耕机、大型旋耕机、抛秧机一应俱全，不少农户现场咨询、选 购。当地精准落实农机购置与应用补贴、农机报废更新补贴政策，引导农户选用先进适用、高效智能的农机装备。 据重庆市农业农村委员会统计，今年全市预计投入农机装备122万台。目前，全市春耕农资供应总体充足，水稻、玉米种子保障 率达120%左右，140万吨化肥有序调配、价格平稳。 重庆市开州区农业发展服务中心农机服务站副站长傅琦称："从小型的微耕机到大型拖拉机，以及植保无人机都有相应的补贴， 微耕机可以补贴500至600元，像植保无人机补贴最高可以达到1.5万元。" 在重庆开州区供销农资交易配送中心，货架上各类种子、化肥分门别类摆放有序，不少农户和经销商前来采购。 春耕备耕，农资先行。当地农业部门早部署、早安排，全面摸排辖区春耕农资需求，主动对接农资企业加大储备、加快调运，全 力保障农资供应不断档、不脱销。重庆市开州区农业发展服务中心粮油服务站站长王开周 ...

东省委农村工作 会议在广州召 开，对全省"三 农"工作作出新 部署。会议着重 强调要"大力发 展农业新质生产 力"，并"提升绿 化成效"、改善 乡村宜居环境。 会上专门通报了 全省绿肥种植工 作情况。这些具 体任务，清晰地 标定了绿色农业 在广东当前及今 后一段时期农业 农村工作中的重 要位置。 以此为新起点， 广东正将绿色发 展的战略要求， 落实为系统的产 业实践：通过科 学施肥从源头提 质增效，依 托"智慧化精准 监测预警"实现 绿色生产力，重 塑农业竞争力 | "四个农业"的广 东实践②_南方 +_南方plus 早春二月，粤西 田野上连片的紫 云英盛开如粉色 云霞，这不仅是 美景，更是"以 田养田"的生态 智慧；粤东果园 里，无人机精准 施放捕食螨，以 虫治虫的绿色防 控悄然进行；大 湾区基地中，养 殖废弃物经处理 后变为滋养作物 的有机肥，完成 一场"变废为 宝"的循环旅 程……这些生动 场景，勾勒出广 东绿色农业最直 观的实践画卷。 中央农村工作会 议连续对"推动 农业发展方式绿 色转型"作出部 署，为农业现代 化建设指明了方 向。2月9日，广 高效生态防控， 推广种养循环促 进资源持续利 用。这些 ...

Core Insights - The release of the "Guidelines for the Construction of Low-altitude Economic Standard System (2025 Edition)" signifies a national effort to establish a unified standardization framework for the low-altitude economy, addressing key issues in the industry and promoting its orderly development [1][2] Group 1: Implications of the Guidelines - The publication of the Guidelines indicates a shift from pilot exploration to large-scale, standardized development in the low-altitude economy, with urgent needs for institutional improvements across the industry chain [1] - The establishment of a clear technical framework will significantly reduce R&D, construction, and operational costs for enterprises, creating opportunities in the low-altitude sector [2] Group 2: Pain Points Addressed by the Guidelines - The Guidelines aim to resolve three major pain points in the industry: 1. Fragmented infrastructure construction, by standardizing technical routes and promoting scale development [5] 2. Safety regulation and operational assurance, by implementing strict identification and registration requirements for drones [5] 3. Disconnection between technology and demand, by providing comprehensive support for the entire chain from R&D to industrialization [5] Group 3: Beneficial Areas in the Low-altitude Industry - The low-altitude infrastructure sector is expected to experience standardized development, with clear technical routes and standards for low-altitude network communication, perception, and high-precision navigation [7] - The low-altitude equipment sector will see compliance upgrades, driven by the Guidelines' requirements for connectivity and safety, enhancing drone safety management [7] - The application areas within the low-altitude industry will witness large-scale implementation, particularly in scenarios like power line inspections and emergency communications, facilitated by standardized technologies [8]

Core Insights - The article discusses the rapid growth and competitive landscape of the agricultural drone market in China, particularly focusing on crop protection drones and their applications in agriculture [1][7]. Industry Overview - Agricultural aviation has evolved from manned aircraft operations to a coexistence of manned and unmanned operations, with a significant increase in the use of agricultural drones for tasks such as spraying, seeding, and pest control [1][7]. - The demand for agricultural drones is driven by the need for efficient pest control, especially during outbreaks of biological disasters [3]. Market Data - According to the National Bureau of Statistics, China's crop sowing area has remained above 1.6 billion hectares from 2016 to 2024, with projections indicating that the sowing area for grain crops will reach 1.196 billion hectares in 2024 [6]. - The sales of crop protection drones in China have surged from 7,500 units in 2017 to 99,500 units in 2024, reflecting a compound annual growth rate of 43.7% [7]. Competitive Landscape - The agricultural drone market is primarily dominated by DJI and XAG, with both companies offering a range of products and services in the agricultural sector [11]. - DJI has released multiple agricultural drone models and aims to sell nearly 200,000 units by 2025, with a projected operational area exceeding 1.9 million acres [13]. - XAG has developed a comprehensive product matrix and has served 9.31 million farmers, covering over 1.45 billion acres, while also expanding its overseas business significantly [13]. Future Trends - The article highlights the expected increase in major crop pest occurrences by 6.2% in 2025, necessitating enhanced monitoring and control measures [6]. - The competitive dynamics suggest a strong focus on technological advancements and service expansion among leading companies in the agricultural drone sector [11][13].

Core Viewpoint - The rise of young individuals in rural areas is reshaping the ecological development paths and connotations, exemplified by projects like the "Deep Blue Plan" in Anji, Zhejiang, which transform abandoned sites into vibrant cultural spaces [1] Group 1: Youth Engagement in Rural Ecological Revitalization - Young individuals are motivated by a deep-seated ecological value recognition and a sense of ecological responsibility, leading to a new expression of their commitment to rural ecological protection [2] - They actively organize social activities such as ecological research, experiences, and education to raise awareness about rural ecology, expanding their influence in ecological revitalization [2] - Projects like the "Deep Blue Plan" involve forming ecological police alliances to promote ecological civilization, effectively enhancing public ecological literacy [2] Group 2: Transformation of Ecological Product Value - The involvement of young individuals catalyzes the transformation of rural ecological product value, characterized by a shift from single economic value to diversified composite value [3] - They repurpose rural resources, such as abandoned mines and idle factories, into new economic projects that are experience-based and consumable, exploring various integration models like "ecology + art" and "ecology + education" [3] - This approach significantly contributes to the development of new productive forces in rural areas [3] Group 3: Technological and Governance Innovations - Young individuals introduce technological innovations, such as smart irrigation systems and precision fertilization, which enhance agricultural productivity and quality [4] - They also modernize rural ecological governance by incorporating participatory planning and collaborative rules, fostering cooperation among various stakeholders in ecological governance [4] Group 4: Cultural and Lifestyle Transformation - Young individuals contribute to the cultural revitalization of rural areas through ecological architecture, landscape creation, and artistic interventions, enhancing environmental quality and community identity [5] - They advocate for a modern green lifestyle, promoting practices like waste sorting and resource recycling, thus becoming key players in establishing new social bonds based on ecological value recognition [5] - The overall effort aims to create a sustainable and prosperous future for rural areas through ecological revitalization [5]

Healthcare Projects - The establishment of the National Emergency Medical Rescue Base in Shaanxi will significantly enhance emergency medical rescue capabilities in the region, improving the response to public health emergencies [3] - The construction of a Chinese and Western Medicine Collaborative Hospital in Xi'an aims to innovate service models and improve treatment capabilities for complex diseases, with a total investment of approximately 193 million yuan [6][4] Economic Development Initiatives - The Oriental Kemei Biopharmaceutical Collagen Protein R&D and Production Base will occupy 50.031 acres with a total investment of 650 million yuan, expected to generate an annual output value of around 1 billion yuan upon reaching full production [9] - The Nanshan Holdings Advanced Equipment Industrial Park, with a total investment of 498 million yuan, focuses on high-end equipment manufacturing and is expected to create a demonstration zone for advanced manufacturing [11] High-end Manufacturing Projects - The Zhongtian Yuanhang Plant Protection Drone Assembly Base, with an investment of approximately 200 million yuan, aims to produce 2,000 medium and large drones annually, enhancing the regional high-end equipment manufacturing industry [12] - The Hydrogen Fuel Cell Membrane Electrode Production Base, with an investment of 20 million yuan, will establish the first automated production line in Northwest China, contributing to the hydrogen energy industry [13] - The Nuclear Power Station Soft Sealing Product R&D and Production Base, with a total investment of 530 million yuan, is expected to generate an annual output value of around 600 million yuan and create over 500 jobs [16] - The Kelongda Aircraft APU Overhaul and Maintenance Project will provide specialized maintenance services for the aviation industry, with the first phase nearing completion [17]

Core Viewpoint - The modernization of agriculture and rural areas in China is increasingly driven by technology and data, transitioning from traditional farming practices to data-driven approaches, with a clear outline for future development [1][6]. Group 1: Agricultural Production and Technology - By 2025, China's grain production is expected to reach 14,298 billion jin, an increase of 168 billion jin, maintaining a historical high for two consecutive years [3]. - The construction and upgrading of high-standard farmland will cover 7,568 million mu, with a cumulative total exceeding 1 billion mu [3]. - The comprehensive mechanization rate for crop farming is projected to reach 76.7% by 2025, indicating that over 70% of field operations will be mechanized [3]. - The contribution rate of agricultural technology progress has surpassed 64%, showcasing significant advancements in agricultural productivity [3]. Group 2: Income and Quality of Life for Farmers - By 2025, the per capita disposable income of rural residents is expected to reach 24,456 yuan, reflecting a real growth of 6% from the previous year [4]. - The improvement in farmers' income levels is attributed to the acceleration of new agricultural productivity, the deep empowerment of smart agriculture, and the development of diverse income channels [4]. - New industries and business models, such as rural tourism and e-commerce, are expanding, driven by technology-centered agricultural productivity [4]. Group 3: Systematic Transformation and Future Outlook - Smart agriculture is transforming the entire agricultural value chain, enhancing production methods, and extending the industry chain to improve the value chain [4]. - The systematic transformation facilitated by smart agriculture connects production, processing, circulation, and consumption, providing technical support and efficiency guarantees for rural development [4]. - The strategic signal for accelerating agricultural modernization is clear, aiming to improve the dignity and quality of life for farmers, with smart agriculture as a key focus in the initial phase of the "14th Five-Year Plan" [6].