เปรียบเทียบวิธี
ดูวิธีที่เลือกเทียบกันแบบเคียงข้าง แถวที่ต่างกันจะถูกเน้นไว้
| แบบจำลองการเจริญเติบโตของพืช (DSSAT/APSIM)× | การวิเคราะห์สถาปัตยกรรมราก× | |
|---|---|---|
| สาขาวิชา | พืชไร่ | พืชไร่ |
| ตระกูล | Process / pipeline | Process / pipeline |
| ปีกำเนิด≠ | 1993-2003 | Systematic methods developed from the 1970s onward; foundational review by Lynch (1995) |
| ผู้ริเริ่ม≠ | James W. Jones, Gerbrand T. Hoogenboom (DSSAT); Brian A. Keating, Peter S. Carberry (APSIM) | Multiple contributors |
| ประเภท≠ | Mechanistic crop simulation pipeline | Quantitative morphological analysis pipeline |
| แหล่งต้นตำรับ≠ | Jones, J. W., Hoogenboom, G., Porter, C. H., et al. (2003). The DSSAT cropping system model. European Journal of Agronomy, 18(3-4), 235-265. DOI ↗ | Lynch, J. (1995). Root architecture and plant productivity. Plant Physiology, 109(1), 7–13. DOI ↗ |
| ชื่อเรียกอื่น≠ | DSSAT, APSIM, Crop Simulation Model | root system architecture analysis, RSA analysis, root morphology analysis, root phenotyping |
| ที่เกี่ยวข้อง≠ | 3 | 0 |
| สรุป≠ | Crop growth models are mechanistic simulation systems designed to predict crop development, biomass accumulation, and yield under varying environmental and management conditions. DSSAT (Decision Support System for Agrotechnology Transfer) and APSIM (Agricultural Production Systems Simulator) are the most widely used platforms, developed in the 1990s-2000s to support agronomic decision-making and climate adaptation research. | Root Architecture Analysis is a quantitative method in agronomy and plant science that characterises the spatial configuration, branching pattern, and geometric properties of a plant's root system. By measuring parameters such as total root length, lateral root density, root angle, and root tip number, researchers link below-ground structural traits to nutrient and water acquisition efficiency, soil penetration capacity, and ultimately to crop productivity and stress tolerance. |
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