دانشگاه محقق اردبیلی مدل سازی و مدیریت آب و خاک 2783-2546 4 2 2024 05 21 Evaluation of AquaCrop model for simulation of Wheat plant (Triticum) yield under different scenarios of agricultural management in Qazvin ارزیابی مدل AquaCrop برای شبیه‌سازی عملکرد گیاه گندم تحت سناریوهای مختلف مدیریت زراعی در قزوین 1 16 2148 10.22098/mmws.2023.12533.1248 FA محمدهادی جرعه نوش دکتری، مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی فارس، شیراز، ایران اصلان اگدرنژاد استادیار، گروه علوم و مهندسی آب، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران محمد علی شاهرخ نیا دانشیار، بخش تحقیقات فنی و مهندسی کشاورزی، مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی فارس، شیراز، ایران نیازعلی ابراهیمی پاک استاد، بخش آبیاری و فیزیک خاک، مؤسسة تحقیقات خاک و آب، سازمان تحقیقات، آموزش و ترویج کشاورزی، کرج، ایران Journal Article 2023 03 14 Introduction The agriculture sector, as the biggest consumer of water to produce more food, has faced the challenge of water shortage. One of the problems ahead in the agricultural industry is the sustainable use of available resources such as land, water, and labor to increase agricultural production and development, which requires proper planning and management policies. Plant models can be used to investigate the long-term effects of quantitative and qualitative changes in irrigation water on crops, soil salinity, evaporation and transpiration, deep infiltration, and surface runoff. One of the widely used plant models is the AquaCrop model, which was presented and developed by the World Food and Agriculture Organization. The Aquacrop model is one of the crop yield estimation models that can be used for a wide range of crops including fodder crops, vegetables, grains, fruits, oil crops, and tubers. In this model, the state of various stresses including water and soil salinity, simulation of lack of irrigation, and crop yield are considered. Various studies have been conducted regarding the calibration and validation of crop forecasting models in our country, and much research has been conducted on wheat at the global level. In this research, the AquaCrop model was used to predict the biomass and grain yield of wheat in Qazvin. This model can be a good substitute for field measurements and can be used in areas where there is a lack of ground information. Materials and Methods In the present research, the data of water wheat cultivation in a lysimeter in Ismailabad, Qazvin were used. The input information of the AquaCrop model includes information on climate, soil, management, and plant characteristics. To calibrate and verify the model, some farm information was needed to be compared with the output of the AquaCrop model. The biomass of the wheat plant was determined by taking random samples of the 0.5×0.5 m2 with two replications per sampling hectare. To measure grain yield in the fields, four samples were taken at the end of the growing season at the end stage. The validated AquaCrop model was used to estimate the effect of three planting dates and three low irrigation conditions on wheat grain yield. In this step, the average regional information around the farms was used so that the implementation of the model is not unique to the conditions of a particular farm. Results and Discussion In terms of the investigated meteorological factors, the model has moderate sensitivity to maximum and minimum temperature and low sensitivity to rainfall. The change in the maximum temperature in this region increases the error of the simulation on average. Regarding the soil parameters, the sensitivity of the model to the crop capacity moisture, wilting point, saturated moisture, and saturated hydraulic conductivity, especially in saturated conditions, is low to medium. The most sensitive of the AquaCrop model was the change in the reference harvest index. The model simulated biomass values with higher accuracy than yield. In the calibration stage, the values CRM, NRMSE, and d for biomass were -0.15, 0.17, and 92% respectively. These values were obtained in the validation stage for biomass -0.1, 0.24, and 92 % respectively, and for yield -0.03, 0.06, and 80 % respectively. By running the model in different climatic scenarios, it was determined that the maximum delay in the planting date is on November 15. A 25% reduction in irrigation water reduced grain yield in wet, normal, and dry years by 15%, 20%, and 28 %, respectively, and a 50 % reduction in irrigation water reduced its amount by 20, 25, and 45 %, respectively. Conclusion Evaluation of the AquaCrop model for common plants in a region plays an important role in comparing crop performance in different conditions. In this research, the ability of AquaCrop 6 model to estimate the yield and biomass of wheat in Ismailabad Qazvin was investigated. The results showed that the model is capable of simulating these factors with high accuracy. The accuracy of the model in biomass simulation was higher than the grain yield. By implementing the calibrated model in different climatic scenarios, planting dates, and irrigation deficits in two regions, it was determined that to achieve optimal performance, the wheat planting date should not exceed 15 November. It was the use of calibration coefficients by spending a long time in the AquaCrop model so that a calibrated model can be used in many areas with proper accuracy. More accuracy in the simulated results can be achieved by using more calibration factors, but it is clear that the use of more calibration factors requires spending more time and money. Finding a general recalibrated model that can be used in large areas is a good solution in crop management at the farm-to-regional scale. Comparing the statistical parameters obtained in this study with previous studies on wheat yield modeling by the AquaCrop model shows that the results of this study are within an acceptable range. مدل‌های گیاهی برای بهینه‌سازی عوامل مدیریتی در محیط‌های متغیر استفاده می‌شود. در این مطالعه، مدل AquaCrop 6 در پیش‌بینی زیست‌توده و عملکرد محصول گندم پاییزه در سه سال زراعی در نیمة شمالی ایران و در منطقة قزوین به‌کار گرفته شد. داده‌های سال زراعی اول (1395-1394) برای واسنجی و داده‌های سال‌های دوم و سوم زراعی (1396-1395 و 1397-1396) برای صحت‌سنجی مدل به‌کاربرده ‌شد. مقادیر اندازه‌گیری ‌شدة زیست‌توده و عملکرد دانه، جهت تعیین پارامترهای واسنجی در سال اول به‌کار رفت. مدل واسنجی ‌شده دقت بالایی در شبیه‌سازی زیست‌توده، عملکرد دانه و بهره‌وری آب را نشان داد. مدل مقادیر زیست‌توده را با دقت بالاتری نسبت به عملکرد شبیه‌سازی نمود. در مرحلة واسنجی، مقادیر ضریب باقی‌مانده (CRM)، میانگین مربعات خطای نرمال ‌شده (NRMSE)، شاخص سازگاری (d) برای زیست‌توده به‌ترتیب 15/0-، 17/0، 92 درصد بود. این مقادیر در مرحلة صحت‌سنجی برای زیست‌توده به‌ترتیب 1/0-، 24/0 و 92 درصد و برای عملکرد به‌ترتیب 03/0-، 06/0 و 80 درصد به‌دست آمد. با اجرای مدل در سناریوهای مختلف اقلیمی، تاریخ کشت و کم‌آبیاری مشخص شد حداکثر تأخیر در تاریخ کشت 15 آبان است. کاهش 25 درصدی آب آبیاری، عملکرد دانه در سال‌های مرطوب، نرمال و خشک را به‌ترتیب تا 15، 20 و 28 درصد و کاهش 50 درصدی آب آبیاری، مقدار آن را به‌ترتیب تا 20، 25 و 45 درصد کاهش داد. استفاده از مدل آکواکراپ، به‌عنوان روشی کم‌هزینه و با صرف زمان کم، گذر از اندازه‌گیری‌های سخت و زمان‌بر مزرعه‌ای را ممکن می‌سازد و به‌عنوان روشی مناسب در تخمین عملکرد گندم در منطقة مورد مطالعه پیشنهاد می‌شود.

https://mmws.uma.ac.ir/article_2148_7b6f1523c36743454746fc4c9c8c6877.pdf