Relevant bibliographies by topics / Crop calendar

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Crop calendar'

Author: Grafiati
Published: 3 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Crop calendar"

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Zhao, Xin, Kazuya Nishina, Haruka Izumisawa, Yuji Masutomi, Seima Osako, and Shuhei Yamamoto. "Monsoon Asia Rice Calendar (MARC): a gridded rice calendar in monsoon Asia based on Sentinel-1 and Sentinel-2 images." Earth System Science Data 16, no. 8 (2024): 3893–911. http://dx.doi.org/10.5194/essd-16-3893-2024.

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Abstract. An accurate and spatially explicit large-scale rice calendar can enhance the understanding of agricultural practices and their ecological services, particularly in monsoon Asia. However, currently available global- or continental-scale rice calendars suffer from coarse resolution, poor recording, and outdated information; thus, they do not provide detailed and consistent information on rice phenology. To address this limitation, this study mapped a new (2019–2020) gridded (0.5°×0.5° resolution) rice calendar for monsoon Asia based on Sentinel-1 and Sentinel-2 satellite images. The no
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Sunil, V. G., Abhilash Nandan, R. Aswathi Krishna, et al. "GIS Based Mapping for a Better Crop Planning for Perumpadappu Block of Ponnani Kole Lands in Kerala." Asian Journal of Agricultural Extension, Economics & Sociology 41, no. 7 (2023): 68–80. http://dx.doi.org/10.9734/ajaees/2023/v41i71945.

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Kole lands are one of the biggest saline, humid tropical wetland ecosystems. It spreads across Thrissur and Malappuram districts of Kerala state. They serve as a water storage structure during rainy season. After rains, the stored water is dewatered and circulated in various Kole padasekarams and channels to cultivate paddy. However, the problem is the lack of a proper water management plan resulting in crop loss. The current study is conducted in the Perumpadappu block of Ponnani Kole lands in Malappuram district. In this study, both GIS and Remote sensing technology have been collaborated to
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Khatua, Rajashree, A. Nanda, A. K. B. Mohapatra, A. Mahapatra, V. Guhan, and P. Praveenkumar. "District Level Crop Weather Calendars and Advisories for Kharif Rice in Odisha, India." International Journal of Environment and Climate Change 14, no. 11 (2024): 619–36. http://dx.doi.org/10.9734/ijecc/2024/v14i114573.

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The crop weather calendar is a visual depiction of key facts about crop growth phases, typical crop water requirements, and alerts that should be sent out in response to weather that is conducive to the spread of pests and diseases. Farmers and other stakeholders may successfully plan crops, schedule irrigation, and take plant protection measures by using these calendars, which are practical and helpful tools for farmers. The crop weather calendars are prepared in different languages for better understanding to farmers and explain the usage importance and plan farm operation and activities by
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Irawan, Amalia Nafisah Rahmani, and Daisuke Komori. "Beyond Fixed Dates and Coarse Resolution: Developing a Dynamic Dry Season Crop Calendar for Paddy in Indonesia from 2001 to 2021." Agronomy 14, no. 3 (2024): 564. http://dx.doi.org/10.3390/agronomy14030564.

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There is valuable information that can be obtained beyond using a fixed crop calendar with coarse spatial resolution. Knowing the dynamics of the timing and location in which a particular crop is planted and harvested, with an annual temporal resolution and a fine spatial resolution, is crucial not only for monitoring crop conditions and production but also for understanding crop management under changing climates. In this study, the Normalized Difference Vegetation Index (NDVI) was utilized to develop a historical crop calendar for paddy in Indonesia with a 1 km resolution from 2001 to 2021.
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N. P. SINGH, D. DAS CHAUDHURI, and S. BISWAS. "Crop calendar with the use of meteorological data in Tripura." Journal of Agrometeorology 11, no. 2 (2009): 183–87. http://dx.doi.org/10.54386/jam.v11i2.1250.

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The meteorological data recorded during the period from 1992 to 2006 were used for preparing crop calendar in Tripura. Maximum and minimum temperatures in the state varying from 22.4 to 35.60C and 9.3 to 26.10C, respectively. The crops, rice, maize, oil seeds, pulses, vegetables, mushrooms, tuber crops, fibre crops and fruits were considered in this calendar. Growing seasons for different kinds of mushrooms were determined for better productivity.
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Patel, J. H., and M. P. Oza. "Deriving crop calendar using NDVI time-series." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XL-8 (November 28, 2014): 869–73. http://dx.doi.org/10.5194/isprsarchives-xl-8-869-2014.

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Agricultural intensification is defined in terms as cropping intensity, which is the numbers of crops (single, double and triple) per year in a unit cropland area. Information about crop calendar (i.e. number of crops in a parcel of land and their planting & harvesting dates and date of peak vegetative stage) is essential for proper management of agriculture. Remote sensing sensors provide a regular, consistent and reliable measurement of vegetation response at various growth stages of crop. Therefore it is ideally suited for monitoring purpose. The spectral response of vegetation, as meas
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Gehlot, Tanisha, Sita Ram Mishra, Amrendra Kumar Yadav, and Prince Chaudhary. "Studies on Crop Weather Calendar of Brinjal Crop in Eastern Uttar Pradesh, India." Journal of Experimental Agriculture International 46, no. 6 (2024): 816–23. http://dx.doi.org/10.9734/jeai/2024/v46i62535.

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An investigation was carried out on studies of crop weather calendar on brinjal crop in Eastern Uttar Pradesh has been prepared with objectives to study climatic normal of past 21 years from 2000-21 at Department of Agricultural Meteorology, College of Agriculture, Acharya Narendra Dev University of Agriculture and Technology, Ayodhya, Uttar Pradesh. Climatic data for brinjal crop in Kharif season has been taken from 27th to 48th Standard Meteorological Week (SMW). From the crop weather calendar of brinjal, it was revealed that low temperatures are lethal for brinjal seedlings, so temperature
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Meharie, Enyew Azene, Mintesinot Azene Taye, Adane Tesfaye Lema, and Melkamu Meseret Alemu. "Extreme rainfall indices and their consequences on the local farming crop calendar: An agro-climatic zone based study." Advances in Modern Agriculture 4, no. 2 (2024). http://dx.doi.org/10.54517/ama.v4i2.2312.

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<p>The goal of this study is to investigate the extreme rainfall indices and their consequences on the local farming crop calendar among agro-climatic zones (ACZs) of the Abiya watershed. Climate Hazards Group Infrared Precipitation (CHIRPS) provided long-term (1981–2019) rainfall data for 50 sample grid points with a spatial resolution of 5 × 5 km. Different crops are affected differently by the same extreme rainfall event depending on when it occurred and how extreme it was; this means crop calendars for a specific time may be properly governed by extreme climatic conditions. There has
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Muhammad, Imran, Basit Iqra, Riaz Khan Mobushir, and Rasheed Ahmad Sajid. "Analyzing the Impact of Spatio-Temporal Climate Variations on the Rice Crop Calendar in Pakistan." International Journal of Biological, Life and Agricultural Sciences 11.0, no. 6 (2018). https://doi.org/10.5281/zenodo.1317168.

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The present study investigates the space-time impact of climate change on the rice crop calendar in tropical Gujranwala, Pakistan. The climate change impact was quantified through the climatic variables, whereas the existing calendar of the rice crop was compared with the phonological stages of the crop, depicted through the time series of the Normalized Difference Vegetation Index (NDVI) derived from Landsat data for the decade 2005-2015. Local maxima were applied on the time series of NDVI to compute the rice phonological stages. Panel models with fixed and cross-section fixed effects were u
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Pandey, Anushka, A. K. Singh, A. N. Mishra, and S. R. Mishra. "Study on Crop-weather Calendar of Wheat for Eastern Plain Zone of Uttar Pradesh." International Journal of Environment and Climate Change, July 9, 2022, 224–30. http://dx.doi.org/10.9734/ijecc/2022/v12i1130965.

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An investigation entitled “Study on Crop-weather calendar of wheat crop for eastern plain zone of Uttar Pradesh” was carried out at the Department of Agricultural Meteorology, ANDUA&T, Kumarganj, Ayodhya. Crop weather calendar for wheat crop has been prepared for district Sultanpur through the collection of historical weather data of last 20 years (2000- 2020). Crop weather calendar of wheat was formulated by combining the weekly climatic averages and phenological calendar for the crop along with optimum weather criteria needed at different phenological stages of the crop. Climatic normal
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Dissertations / Theses on the topic "Crop calendar"

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Abebe, Yibekal Alemayehu. "Managing the soil water balance of hot pepper (Capsicum annuum L.) to improve water productivity." Thesis, University of Pretoria, 2010. http://hdl.handle.net/2263/25257.

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A series of field, rainshelter, growth cabinet and modelling studies were conducted to investigate hot pepper response to different irrigation regimes and row spacings; to generate crop-specific model parameters; and to calibrate and validate the Soil Water Balance (SWB) model. Soil, climate and management data of five hot pepper growing regions of Ethiopia were identified to develop irrigation calendars and estimate water requirements of hot pepper under different growing conditions. High irrigation regimes increased fresh and dry fruit yield, fruit number, harvest index and top dry matter pr
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Books on the topic "Crop calendar"

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Ministry, of Agriculture Fisheries and Food. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1983-1992. Ministry of Agriculture, Fisheries and Food Statistics (Agricultural Commodities) Division B, 1993.

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Ministry of Agriculture, Fisheries and Food. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1984-1994. Ministry of Agriculture, Fisheries and Food, 1995.

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Great Britain. Dept. for Environment, Food & Rural Affairs. and National Statistics (Great Britain), eds. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1991/92-2001/02. DEFRA, 2002.

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Great Britain. Department for Environment, Food and Rural Affairs. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1990/91 - 2000/01. DEFRA, 2001.

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Great Britain. Department for Environment, Food and Rural Affairs. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1991/92 - 2001/02. DEFRA, 2002.

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Great Britain. Department for Environment, Food and Rural Affairs. Basic horticultural statistics for the United Kingdom: Calendar and crop years 1992/93 - 2002/3. DEFRA, 2003.

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Corporation, Great Northern, and U.S. Fish and Wildlife Service, eds. Final report Shasta CRMP coordinator, calendar year 1999. Great Northern Corp., 2000.

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Unganai, L. S. Agro-meteorological data analysis and interpretation III: Manual : crop weather calendars. SADC-Land & Water Management Research Programme, 1994.

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Gao, Qianyi. Er shi si jie qi min su. 2nd ed. Zhongguo she hui chu ban she, 2010.

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Wang, Jiahua. Bei jie gou de shi jian: Nong shi jie lü yu chuan tong Zhongguo xiang cun min zhong nian du shi jian sheng huo : yi jiang nan di qu wei zhong xin de yan jiu. Shanghai gu ji chu ban she, 2015.

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Book chapters on the topic "Crop calendar"

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Malyse, Majoumo Christelle. "Rainfall Variability and Adaptation of Tomatoes Farmers in Santa: Northwest Region of Cameroon." In African Handbook of Climate Change Adaptation. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_138.

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AbstractThe Santa agrarian basin being one of the main market gardening basins in Cameroon and one of the producers of tomatoes in the country is vulnerable to the impact of rainfall variability. The spatiotemporal variability of rainfall through the annual, monthly, and daily fluctuations has greatly affected the market gardening sector in general and tomatoes production in particular. Thus, given rise to the research topic “Rainfall variability and adaptation of tomatoes farmers in Santa North west region of Cameroon,” its principal objective is to contribute to better understanding of the r
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Wagino, Abbebe Marra, and Teshale W. Amanuel. "Community Adaptation to Climate Change: Case of Gumuz People, Metekel Zone, Northwest Ethiopia." In African Handbook of Climate Change Adaptation. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_244.

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AbstractThe effect of climate change on agricultural-dependent communities is immense. Ethiopia in which more than 85% of its population is agrarian is affected by climate change. Communities in different parts of the country perceived climate change and practice different climate change adaptation strategies. This chapter was initiated to identify adaptation strategy to the impact of changing climate. Data on a total of 180 households were gathered using structured and semi-structured questioners. Focus group discussion and key informant interview were also used for data collection. Climatic
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Lochetti, Gaia. "Development of seasonal calendars for sustainable diets – experiences from Guatemala, Mali and India." In Orphan Crops for Sustainable Food and Nutrition Security. Routledge, 2021. http://dx.doi.org/10.4324/9781003044802-16.

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Temba, Pontian L., Noah M. Pauline, and Patrick M. Ndaki. "Living and responding to climate variability and change among coffee and banana farmers in the highlands of Moshi rural district, Tanzania." In Climate change impacts and sustainability: ecosystems of Tanzania. CABI, 2020. http://dx.doi.org/10.1079/9781789242966.0009.

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Abstract The study aimed at exploring perceived impacts of climate variability on coffee and banana farming and community responses in the highlands of Moshi Rural District. A socio-economic survey employing qualitative and quantitative research approaches was used. Data were collected using questionnaires, key informant interviews, focus group discussions as well as field observation. A total of 96 farmers were involved in the study. SPSS Statistics software package and Microsoft Excel were used for data processing and analysis. Findings showed that communities are knowledgeable about climate
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Sinha, Chandan. "A Crop Calendar." In Kindling of an Insurrection. Routledge India, 2020. http://dx.doi.org/10.4324/9780367818432-25.

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Aveni, Anthony F., and Anne S. Dowd. "E Groups." In Maya E Groups. University Press of Florida, 2017. http://dx.doi.org/10.5744/florida/9780813054353.003.0003.

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This chapter traces the historical roots of the scholarship regarding the relationship between Group E-type structures and the Maya solar calendar. It begins with a brief survey of the evidence that the Maya kept such a calendar, and then summarizes the bearing of alignment studies of E Groups on how they were involved in developing a seasonal calendar motivated by agricultural necessity. It seems clear that an orientation calendar based on positions of sunrise on the equinoxes and solstices existed in the built environment, at least at Uaxactún, as early as the Terminal Preclassic-Early Class
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Lohmann Peter, Soergel Uwe, and Farghaly Dalia. "Classification of Agricultural Sites Using Time-Series of High-Resolution Dual-Polarisation TerraSAR – X Spotlight Images." In Imagin[e,g] Europe. IOS Press, 2010. https://doi.org/10.3233/978-1-60750-494-8-249.

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Increasing demands for lasting and environmentally conscious use of natural resources together with a cost effective and restrictive use of fertilizers and pesticides require the employment of new technologies in agriculture. The preliminary results presented here consist in the automatic land use classification of agricultural fields based on multi-temporal TerraSAR-X images in dual polarization obtained in the high resolution Spotlight mode of the satellite. The classified data in turn can be used to enhance and validate existing models on ground water quality as a function of agricultural u
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Raitz, Karl. "Kentucky’s Distilling Environment." In Making Bourbon. University Press of Kentucky, 2020. http://dx.doi.org/10.5810/kentucky/9780813178752.003.0004.

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Kentucky’s nineteenth-century distillers operated in a physical environment that varied from one location to another and presented opportunities as well as impediments. Groundwater was available across the Bluegrass country and had long been regarded as “pure” and therefore acceptable for distilling. With the development of modern scientific water analysis, hydrologists were able to establish that many of Kentucky’s springs produced water that was comparatively high in iron, calcium, and inorganic minerals and metals and was not consistently “pure.” The climate is conducive to corn and wheat p
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Stanton, Travis W., Karl A. Taube, and Ryan H. Collins. "Domesticating Time." In The Materialization of Time in the Ancient Maya World. University Press of Florida, 2024. http://dx.doi.org/10.5744/florida/9780813069807.003.0005.

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The transition to settled life during the early portion of the Preclassic (1000 BCE–800 CE) had a tremendous impact on peoples’ lifeways across Mesoamerica. Early permanent settlements widely shared views of space and time, materialized in the built environment, particularly visible in the quadripartite symbolism of foundational events. As maize was gradually adopted as a staple crop during the Middle Preclassic (800–350 BCE), emerging elites leveraged their ability to access sacred knowledge, and presented themselves as the original workers and bearers of the burden of time. Their moral behav
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Punnathanam, Varun, Raunak Bardia, Shirish Potu, Nicole Elliott, and Jose Maria Gonzalez Martinez. "Second-generation biorefinery location selection in Europe using satellite data and crop calendars." In Computer Aided Chemical Engineering. Elsevier, 2024. http://dx.doi.org/10.1016/b978-0-443-28824-1.50437-3.

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Conference papers on the topic "Crop calendar"

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Soontranon, Narut, Panu Srestasathiern, and Preesan Rakwatin. "Rice crop calendar based on phenology analysis from time-series images." In 2015 12th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2015. http://dx.doi.org/10.1109/ecticon.2015.7207029.

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Kawtrakul, Asanee, Phatchariya Tippayarak, Frederic Andres, and Suchada Ujjin. "Personal warning service for pest management using a crop calendar and BUS model." In MEDES '15: The 7th International Conference on Management of computational and collective IntElligence in Digital EcoSystems. ACM, 2015. http://dx.doi.org/10.1145/2857218.2857271.

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Thomas Marek, Paul Colaizzi, Terry A. Howell, Donald Dusek, and Dana Porter. "Estimating seasonal crop ET using calendar and heat unit based crop coefficients in the Texas High Plains Evapotranspiration Network." In 2006 Portland, Oregon, July 9-12, 2006. American Society of Agricultural and Biological Engineers, 2006. http://dx.doi.org/10.13031/2013.21437.

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Oyoshi, Kei, Shinichi Sobue, and Wataru Takeuchi. "Development of complicated rice crop calendar in Southeast Asia with time-series MODIS data." In 2013 Second International Conference on Agro-Geoinformatics. IEEE, 2013. http://dx.doi.org/10.1109/argo-geoinformatics.2013.6621960.

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Challand, Margot, Philippe Vismara, Dimitri Justeau-Allaire, and Stéphane de Tourdonnet. "Supporting Sustainable Agroecological Initiatives for Small Farmers through Constraint Programming." In Thirty-Second International Joint Conference on Artificial Intelligence {IJCAI-23}. International Joint Conferences on Artificial Intelligence Organization, 2023. http://dx.doi.org/10.24963/ijcai.2023/657.

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Meeting the UN's objective of developing sustainable agriculture requires, in particular, accompanying small farms in their agroecological transition. This transition often requires making the agrosystem more complex and increasing the number of crops to increase biodiversity and ecosystem services. This paper introduces a flexible model based on Constraint Programming (CP) to address the crop allocation problem. This problem takes a cropping calendar as input and aims at allocating crops to respect several constraints. We have shown that it is possible to model both agroecological and operati
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Epifantsev, Viktor V. "The influence of the method of crop care on the growth and development of soybeans in the Amur region." In Agro-industrial complex: problems and prospects of development. Far Eastern State Agrarian University, 2024. https://doi.org/10.22450/978-5-9642-0629-3-66-72.

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The article presents the results of observations of the growth and development of soybean plants with various methods of care using traditional and experimental agricultural machines. The complex application of herbicides in crops (Gardo Gold (soil) (3–4 l/ha) and for vegetating plants a mixture of Vidblock Plus (2 l/ha) with Fusilade Forte (2 l/ha)) slows down the onset of phases of plant growth and development by 3–11 days, increases the calendar time of bean maturation and the beginning of harvesting by 6–7 days, regarding mechanical care techniques.
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R., J. Cintas, B. Franch, I. Becker-Reshef, et al. "Generating Winter Wheat Global Crop Calendars in the Framework of Worldcereal." In IGARSS 2021 - 2021 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2021. http://dx.doi.org/10.1109/igarss47720.2021.9553083.

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Pan, Zhuokun, Jingfeng Huang, Fei Mao, Xiuzhen Wang, and Zhewen Zhao. "Modeling crop spatial patterns and their phenological calendars using geographical factors — A case study in Northwest China." In 2014 Third International Conference on Agro-Geoinformatics. IEEE, 2014. http://dx.doi.org/10.1109/agro-geoinformatics.2014.6910571.

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Fron, Arcadie, and Elena Iordosopol. "The perspective of procedures which combat Zeuzera pyrina l." In Scientific International Symposium “Advanced Biotechnologies - Achievements and Prospects” (VIth Edition). Institute of Genetics, Physiology and Plant Protection, 2022. http://dx.doi.org/10.53040/abap6.2022.50.

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Introduction. In the Republic of Moldova, walnut culture has grown in the last decades (about of 14000 ha.). Currently, no detailed studies have been carried out on the harmful effects produced by Zeuzera pyrina L in the walnut orchard. This problem can be solved by clarifying the phenology of this pest in the agroecosystems of the industrial walnut and apple orchards. Five decades ago, against Z. pyrina L. in the apple crops, classic methods of combat were used, at different stages of its development, by cutting and burning the attacked branches. Another control method was the poisoning method
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Reports on the topic "Crop calendar"

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Domingo, Sonny, Anna Jennifer Umlas, and Katrina Mae Zuluaga. Development of Crop Climate Calendars for High-Value Crops in Atok, Benguet: Report from Preliminary Co-Learning and Co-Development Engagements with Agricultural Stakeholders in Benguet Province. Philippine Institute for Development Studies, 2020. https://doi.org/10.62986/dp2020.09.

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Crop climate calendars augment traditional crop calendars by not only specifying planting and harvest schedules but also describing phenological states, cultivation practices and weather and climate requirements that any crop faces throughout a cropping season. The case to document this information in Benguet is compelling: The mountainous province experiences a unique microclimate and phenomena such as frost and hail and derives income from the cultivation of high value crops such as carrots, cabbage and potatoes amidst this. The researchers conducted focus group discussions with the municipa
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Christensen, Steen. Documentation of Edcrop – version 1: A Python package to simulate field-scale evapotranspiration and drainage from crop, wetland, or forest. Royal Danish Library, 2024. http://dx.doi.org/10.7146/aul.539.

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Evapotranspiration is one of the major components of Earth’s Water Balance, being the sum of evaporation and plant transpiration from the land and ocean surface. This report documents edcrop, a Python package that use climate input to simulate field-scale evapotranspiration and drainage from the root zone of an area covered with a crop, a wetland, or a forest. The conceptual model implemented in edcrop is a modification of the Evacrop model by Olesen and Heidmann (2002), which itself builds on the Watcros model by Aslyng and Hansen (1982). The edcrop conceptualization is based on consideration
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