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- Title
Critical Periods of Controlling Cyperus rotundus L. under Flooded Rice Conditions.
- Authors
Donayre, Dindo King M.; Jimenez, Jessica Joyce L.; Martin, Edwin C.
- Abstract
C. rotundus is known to reduce grain yields of transplanted (TPR) and wet direct-seeded rice (WDSR) under flooded conditions. Information regarding its critical period of control is not yet known. Two identical experiments were performed to determine the critical periods of controlling C. rotundus in TPR and WDSR. Following the procedure of two crop-weed competition periods, the weed was grown with TPR and WDSR in a randomized complete block design arrangement with three replications. Under the critical time of weed removal, C. rotundus had the lowest shoot biomass when grown with TPR and WDSR from 0-10 DAT/DAS and the highest from 0-100 DAT/0-120 DAS. When grown from 0-20 up to 60 DAT/DAS, shoot biomass increased significantly thereafter. TPR grain yield was not affected by the weed from 0-10 up to 20 DAT but reduced thereafter by 10.7-40% from 0-30 up to 100 DAT. WDSR grain yield was also unaffected from 0-10 up to 20 DAS; however, it decreased thereafter by 15-34.1% from 0-30 up to 120 DAS. Under the critical weed-free period, the shoot biomass of the weed was highest from 10-100 DAT/DAS for both TPR and WDSR; it decreased significantly from 20-100/120 and up to 60-100/120 DAT/DAS. TPR grain yield decreased to 6.1% when the weed was present from 10-100 and up to 60-100 DAT; WDSR decreased by 16.9 and 4.1% from 10-120 and 20-120 DAS, respectively. There was no yield reduction in WDSR from 0-10 and up to 60-120 DAS. The classical method and statistical model suggest that the critical period for controlling C. rotundus is from 14-29 DAT in TPR and 18-26 DAS in WDSR. Appropriate and effective weed control techniques should be employed during these periods to avoid having more than 5% grain yield reduction.
- Subjects
NUTGRASS; WEED competition; GRAIN yields; RICE; WEEDS; BLOCK designs; WEED control
- Publication
Philippine Journal of Science, 2023, Vol 152, Issue 1, p313
- ISSN
0031-7683
- Publication type
Article