Journal of Agricultural Big Data >
2024−2025 Dataset of Air and Soil Temperature and Humidity for Greenhouse-Grown Vegetables in Beijing
Received date: 2025-07-25
Revised date: 2025-10-09
Online published: 2025-12-26
The greenhouse vegetable industry is one of the important planting sectors in Beijing's urban modern agriculture and a key source of income growth for farmers in the suburbs of Beijing. East-west ridge planting reduces the number of ridges, which is conducive to the application of intelligent water-fertilizer decision-making methods and intelligent agricultural machinery and equipment, and serves as an important means to improve greenhouse production efficiency. However, there is still a lack of data for researching the greenhouse environment under east-west ridge planting. From May 1, 2024 to July 3, 2025, the crop growth environment in solar greenhouses with east-west ridge planting at the Beijing Xiaotangshan National Precision Agriculture Research and Demonstration Base was monitored. This dataset includes monitoring data of the greenhouse crop growth environment for 4 successive crops, namely two seasons of tomatoes, followed by cucumbers and rapid-growing vegetables. The data covers the growth period, air temperature, air humidity, 20 cm soil moisture, 40 cm soil moisture, 60 cm soil moisture, 20cm soil temperature, 40 cm soil temperature, and 60 cm soil temperature. Among the data, the collection interval for air temperature and humidity data is 5 minutes, while that for soil moisture data is 15 minutes. The total data size is 4.59 MB, and the data is stored in XLSX format. This dataset can be used to analyze the environmental change patterns of greenhouses with east-west ridges under different crop types, thereby formulating reasonable irrigation plans and constructing intelligent irrigation decision-making models.
Data summary:
| Items | Description |
|---|---|
| Dataset name | 2024−2025 Dataset of Air and Soil Temperature and Humidity for Greenhouse-Grown Vegetables in Beijing |
| Specific subject area | Agricultural Science |
| Research topic | Greenhouse vegetable cultivation |
| Time range | 2024.5.1−2025.7.3 |
| Emporal resolution | Greenhouse air temperature and humidity data: 5 minutes; Greenhouse soil moisture data: 15 minutes. |
| Data types and technical formats | .xlsx |
| Dataset structure | The data consists of three table files, including Spring Crop Tomato Cultivation in Greenhouse Monitoring Data Sheet, Autumn Crop Tomato Cultivation in Greenhouse Monitoring Data Sheet, Cucumber Cultivation Monitoring in Greenhouse Data Sheet and Quick-growing Cabbage Leafy Vegetable Cultivation in Greenhouse Monitoring Data Sheet. |
| Volume of dataset | 4.59 MB |
| Key index in dataset | Growth periods, Air Temperature, Air Humidity, 20 cm Soil Moisture, 40 cm Soil Moisture, 60 cm Soil Moisture, 20 cm Soil Temperature, 40 cm Soil Temperature, 60 cm Soil Temperature |
| Data accessibility | DOI:10.57760/sciencedb.agriculture.00283; https://doi.org/10.57760/sciencedb.agriculture.00283 CSTR:17058.11.sciencedb.agriculture.00283; |
| Financial support | Reform and Development Project of Beijing Academy of Agriculture and Forestry Sciences Research on Soil Moisture Monitoring Technology with Sensing-Computing Integration and R&D of Intelligent Sensors (GGFZ20240116). |
ZHANG ShiRui , JIA YuXuan , LI YouLi , GUO YuanYuan , QU MingShan , ZHANG Xin . 2024−2025 Dataset of Air and Soil Temperature and Humidity for Greenhouse-Grown Vegetables in Beijing[J]. Journal of Agricultural Big Data, 2025 , 7(4) : 543 -550 . DOI: 10.19788/j.issn.2096-6369.100067
| [1] | 王爱玲, 李凌云, 串丽敏, 等. 北京市设施蔬菜产业现状、问题与对策. 中国蔬菜, 2023(3):8-14. |
| WANG A L, LI L Y, CHUAN L M, et al. Present status, problems and countermeasures of facility vegetable industry in Beijing. China Vegetables, 2023(3):8-14. | |
| [2] | 北京市统计局, 国家统计局北京调查总队. 北京统计年鉴2024[M]. 中国统计出版社, 2024. |
| Beijing Municipal Bureau of Statistics, Beijing Survey Team of the National Bureau of Statistics. Beijing statistical yearbook 2024[M]. China Statistics Press, 2024. | |
| [3] | 苏秋芳. 智慧农业赋能北京市农业高质量发展. 农业工程, 2024, 14(6): 34-38. |
| SU Q F. Smart agriculture enabling high-quality agricultural development in beijing city. Agricultural Engineering, 2024, 14(6): 34-38. | |
| [4] | 胡长增, 申晨, 冯栋栋, 等. 基于物联网的温室智能化灌溉系统. 河北农业大学学报, 2021, 44(4):103-108. |
| HU C Z, SHEN C, FENG D D, et al. Intelligent greenhouse irrigation system based on the internet of things. Journal of Hebei Agricultural University, 2021, 44(4): 103-108. | |
| [5] | 薛希霞. 蔬菜栽培技术中智慧农业及机械的应用策略. 农业工程技术, 2023, 43(17):28-30. |
| XUE X X. Application strategies of smart agriculture and machinery in vegetable cultivation technology. Agricultural Engineering Technology, 2023, 43(17): 28-30. | |
| [6] | 李宝石, 刘文科, 王奇, 等. 起垄内嵌基质栽培对日光温室夏季黄瓜根区温度、生长和产量的影响. 中国农业科技导报, 2022, 24(2):177-183. DOI:10.13304/j.nykjdb.2020.0862. |
| LI B S, LIU W K, WANG Q, et al. Effects of ridge-embedded substrate cultivation on root zone temperature, growth and yield of cucumbers in solar greenhouses in summer. Journal of Agricultural Science & Technology, 2022, 24(2):177-183. DOI:10.13304/j.nykjdb.2020.0862. | |
| [7] | 于威, 刘文合, 白义奎, 等. 基于CFD的两连跨日光温室热环境模拟. 农业工程学报, 2023, 39(16):215-222. DOI:10.11975/j.issn.1002-6819.202305209 |
| YU W, LIU W H, BAI Y K, et al. CFD-Based thermal environment simulation of a two-span solar greenhouse. Transactions of the Chinese Society of Agricultural Engineering, 2023, 39(16): 215-222. | |
| [8] | LI L, HAN F, LI J, et al. The development of variable system-based internet of things for the solar greenhouse and its application in lettuce. Frontiers in Plant Science, 2024, 15: 1292719. DOI:10.3389/fpls.2024.1292719. |
| [9] | 韩芙蓉. 日光温室东西垄种植的蔬菜分区灌溉系统构建与应用研究[D]. 太古: 山西农业大学, 2024. |
| HAN F R. Research on the construction and application of zoned irrigation system for vegetables under east-west ridge planting in solar greenhouses[D].Taigu: Shanxi Agricultural University, 2024. |
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