FHAAST provides support for both tactical and strategic forest health risk assessments. In addition, this program coordinates, in collaboration with the USDA Forest Service Forest Health Monitoring program (FHM), the development of a National Insect and Disease Risk Map (NIDRM) and database.FHAAST has completed the 2013 - 2027 National Insect and Disease Risk Map (2012 NIDRM); a nationwide strategic assessment and database of the potential hazard for tree mortality due to major forest insects and diseases. The goal of NIDRM is to summarize landscape-level patterns of potential insect and disease activity, consistent with the philosophy that science-based, transparent methods should be used to allocate pest-management resources across geographic regions and individual pest distributions. In other words: prioritize investment for areas where both hazard is significant and effective treatment can be efficiently implemented.NIDRM data can be used to:Identify the potential impacts of pests and pathogens to forest ecosystems throughout the US for the 2013 - 2027 timeframe.Generate forest pest and pathogen risk maps at a scale useful for resource planning and management purposes in many of our National Forests, National Parks, and other local units.Develop an effective strategic planning tool that can inform assessments of natural ecosystems and ensure resources for forest pest prevention, suppression, and restoration reaches the highest priority areas.Detect areas where hazardous fuels treatments coincide with lands at risk for forest pest activity, much of which is density driven. Efficiencies will be gained by prioritizing coincident areas.For a quick overview of the 2013 - 2027 assessment and to learn more information on the differences between the 2006 and 2012 NIDRMs download the executive summary (2 MB PDF).Explore forests vulnerable to attack from major insects and diseases by viewing the Interactive Story Map of the National Insect and Disease Risk MapThis record was taken from the USDA Enterprise Data Inventory that feeds into the https://data.gov catalog. Data for this record includes the following resources: ISO-19139 metadata ArcGIS Hub Dataset ArcGIS GeoService For complete information, please visit https://data.gov.

Precision Viticulture Market Overview: The global precision viticulture market is projected to reach $1.67 billion by 2033, exhibiting a CAGR of 8.58% from 2025 to 2033. This growth is attributed to the increasing adoption of precision farming techniques to improve crop yield, reduce costs, and enhance sustainability. Key drivers include the need for optimized irrigation, pest and disease management, and efficient use of soil nutrients. Moreover, technological advancements in remote sensing and geographic information systems (GIS) have enabled real-time monitoring and precise decision-making in vineyards. Market Segmentation and Competitive Landscape: The precision viticulture market is segmented based on technology (remote sensing, GIS), application (yield monitoring, pest management), crop (grapes, apples), and region. North America, Europe, and Asia-Pacific dominate the market, with significant contributions from the United States, Germany, France, China, and India. Major players in the market include WineWorks Software, AGCO Corporation, Ecorobotix, and The Climate Corporation. These companies invest heavily in research and development to offer innovative solutions and cater to the growing demand for precision viticulture technologies. Recent developments include: The Precision Viticulture Market is anticipated to witness significant growth over the forecast period, driven by increasing adoption of precision farming techniques, rising demand for high-quality grapes, and government initiatives promoting sustainable agriculture practices. Technological advancements, such as the integration of IoT sensors, data analytics, and drones, are further enhancing the market growth. Key players in the market are focusing on strategic partnerships and collaborations to expand their product offerings and geographic reach. Recent news and developments include the launch of new precision viticulture solutions, such as variable rate application systems and yield monitoring tools, as well as partnerships between technology providers and industry leaders. These developments are expected to contribute to the overall expansion of the precision viticulture market in the coming years.. Key drivers for this market are: Increased crop productivity Reduced environmental impact Improved wine quality Early detection of disease Optimum irrigation management. Potential restraints include: 1 Increasing demand for precision agriculture techniques2 Government initiatives and subsidies3 Advancements in sensor technology and data analytics4 Growing adoption of IoT and AI solutions5 Expansion of vineyards in emerging markets.

A map service depicting the locations of damage caused by insect, disease and other abiotic agents.To provide a single, consistent source for all aerially detected insect, disease, and abiotic forest damage data to facilitate national and multi-regional reporting of damage for both Forest Health Monitoring and Forest Health Protection. Point data will show up when zoomed into a scale of 1:250,000. Polygon data is visible at all scales.This data is updated annually. To find the date of a particular survey data collection you can open the data in an AGOL web map and click on a feature. The Created Date and Modified Date fields contain the date of creation and modification. The Survey Year field indicates which year the survey was conducted.