November 2022 CropWatch Bulletin is based mainly on current remote sensing inputs in addition to detailed and spatially accurate reference data about crops and their management. Focusing on the months of July to October 2022, chapters cover global, national, and regional level agroclimatic conditions and the condition of crops that were growing during this time. For China, the bulletin presents crop conditions for each of seven key agro-ecological zones, an updated estimate of trade prospects (import/export) of major crops. The focus section reports on the estimate by CropWatch for maize, rice, wheat and soybeans production in 2022, recent disaster events with an impact on agriculture, and the possibility of an El Niño event.
Key messages from the report:
- Temperatures keep setting new records. During this monitoring period, Europe experienced the hottest summer on record, accompanied by a prolonged drought. The Yangtze river basin in China also experienced an extremely hot and dry summer and autumn.
- The global crop production index (CPI) was at the lowest level in the same period of nearly 10 years, which was equivalent to that in 2018.CPI greater than 1 indicates that global crop production is stable on the whole, and there will be no significant reduction in production.
- In 2022, the total global production of four major food crops is estimated to be at 2,860 million tonnes, 1.5% below the previous year. Maize production is estimated at 1,045 million tonnes, a decrease of 3.0%; global rice production is 755 million tonnes, a decrease of 1.2%; global wheat production is 740 million tonnes, a 0.3% decrease; global soybean production is 320 million tonnes, a decrease by 0.1%.
- China’s total crop production in 2022 is expected to be 646.74 million tonnes, an decrease of 0.8% from last year. China's soybean production reached 18.19 million tons, an increase of 26.8%, the largest increase in 10 years.
IntroductionSpecial attention is paid to the major producers of maize, rice, wheat and soybean throughout the bulletin. The assessment is based mainly on remotely sensed data. It covers prevailing weather conditions, including extreme factors, at different spatial scales, starting with global patterns in Chapter 1. Chapter 2 focuses on agro-climatic and agronomic conditions in major production zones in all continents. Chapter 3 covers the major agricultural countries that, together, make up at least 80% of production and exports. Each is the object of a detailed analysis. Chapter 3 constitutes the bulk of the Bulletin. Chapter 4 zooms into China. A special focus section is included in Chapter 5, covering crop production for 2022, disaster events and an update on El Niño. This first part of the report includes the cover, table of contents, abbreviations, a short overview of the different sections of the bulletin and executive summary.Download
Chapter 1. Global agroclimatic patternsChapter 1 describes the CropWatch agroclimatic indicators for rainfall (RAIN), temperature (TEMP), and radiation (RADPAR), along with the agronomic indicator for potential biomass (BIOMSS) for 105 global Mapping and Reporting Units (MRU). Indicator values for all MRUs are provided in Annex A.Download
Chapter 2. Crop and environmental conditions in major production zonesChapter 2 presents the same indicators—RAIN, TEMP, RADPAR, and BIOMSS— as those used in Chapter 1, and combines them with the agronomic indicators—cropped arable land fraction (CALF), maximum vegetation condition index (VCIx), and minimum vegetation health index (VHIn)— to describe crop condition in six Major Production Zones (MPZ) across all continents. For more information about these zones and methodologies used, see the quick reference guide in Annex B.Download
Chapter 3. Main producing and exporting countriesThe present section offers a closer look at individual countries, including the 43 countries that together produce and commercialize 80 percent of maize, rice, wheat, and soybean. As evidenced by the data in this section, even countries of minor agricultural or geopolitical relevance are exposed to extreme conditions and deserve mentioning, particularly when they logically fit into larger patterns.Download
Chapter 4. ChinaAfter a brief overview of the agro-climatic and agronomic conditions in China over the reporting period (section 4.1), Chapter 4 then presents China's crop prospects (section 4.2), describes the situation by region, focusing on the seven most productive agro-ecological regions of the east and south: Northeast China, Inner Mongolia, Huanghuaihai, Loess region, Lower Yangtze, Southwest China, and Southern China (section 4.3). Section 4.4 describes trade prospects of major cereals and soybean. Additional information on the agro-climatic indicators for agriculturally important Chinese provinces is listed in table A.11 in Annex A.Download
Chapter 5. Focus and perspectivesBuilding on the CropWatch analyses presented in chapters 1 through 4, this chapter presents food production prediction for 2022 (section 5.1), as well as sections on recent disaster events (section 5.2) and an update on El Niño or La Niña (5.3).Download
Annex A. Agroclimatic indicatorsTables in this Annex provide additional information about the agroclimatic indicators—RAIN, TEMP, and RADPAR—as well as BIOMSS for the various CropWatch spatial units. Those units include the Mapping and Reporting Units (MRU); the forty-three main producing and exporting countries; and regions or provinces within large countries—Argentina, Australia, Brazil, Canada, India, Kazakhstan, Russia, and the United States; and China.Download
Annex B. Quick reference guide to CropWatch indicators, spatial units and methodologiesAnnex B presents a brief overview of the CropWatch indicators and spatial units (including the MRUs, MPZs, and countries), along with a description of the CropWatch production estimation methodology and methodology to determine the severity of the occurrence.Download