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- Title
Dry matter accumulation in rice aboveground part: Quantitative simulation.
- Authors
Li Yan-da; Tang Liang; Chen Qing-chun; Zhang Yu-ping; Cao Wei-xing; Zhu Yan
- Abstract
A field experiment with four rice (Oryza sativa L. ) cultivars and different nitrogen application rates was conducted, with the dry matter accumulation ( DMA) in the cultivars aboveground part measured at their main growth stages. The dynamic model of relative dry matter accumulation (RDMA) was established with the normalized DMA and TEP (product of thermal effectiveness and PAR) from emergence to maturity, and the temporal characteristics of DMA changes was quantitatively analyzed based on the RDMA model. The dynamic changes of the RDMA could be well described with Richards equation, i. e. , RDMA = 1.0157/ (1+e3. 6329-7. 5907×RTEP )1/0. 5574(r = 0.9938). The model was validated with independent field experiment datasets, involving different eco-sites, cultivars, and nitrogen application rates. The RMSE (root mean square error) between the simulated and observed values of DMA at varied RTEP was 0.86 t∙hm-2. According to the two inflexion points of dry matter accumulation rate equation, the whole process of dry matter accumulation could be divided into early, middle, and late phases. The maximum dry matter accumulation rate (ARmax), relative TEP at ARmax, and relative dry matter accumulation at ARmax were found to be 2.24, 0.56, and 0.46, respectively.
- Subjects
RICE; PLANTING; CULTIVARS; EXPERIMENTAL agriculture; SIMULATION methods &; models; BIOACCUMULATION; NITROGEN in soils; PLANT growth; THERMAL analysis; DEVELOPMENTAL biology
- Publication
Chinese Journal of Applied Ecology / Yingyong Shengtai Xuebao, 2010, Vol 21, Issue 6, p1504
- ISSN
1001-9332
- Publication type
Article