Regrowth of Lowland Ecotype Cyperus rotundus L. in Response to Soil Depth, Shoot Clipping and Flooding Depth Interventions

IF 0.4 Q4 MULTIDISCIPLINARY SCIENCES

Mindanao Journal of Science and Technology Pub Date : 2022-12-22 DOI:10.61310/mndjstea.0992.22

D. Donayre, Jobelle S. Bruno, A. M. L. S. Latonio, Jessica Joyce L. Jimenez, Edwin C. Martin

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引用次数: 0

Abstract

Lowland ecotype Cyperus rotundus L. (LE-CYPRO) has tubers that can grow and survive under flooded conditions. However, information on the responses of its tubers to the combination of soil depth or shoot clipping with flooding is unavailable. Two experiments were conducted to determine the germination and regrowth of LE-CYPRO tubers in response to soil depth, shoot clipping and flooding depth interventions. Experiment 1 involved pre-sprouted (PS) and non-sprouted (NS) tubers subjected to three soil depths (0, 5 and 10 cm) and three flooding depths (0, 3 and 5 cm); Experiment 2 used PS tubers subjected to shoot clipping at periods of 10, 20 and 30 days after planting (DAP) under three water conditions (saturated, early flooding and late flooding). Irrespective of soil depths, PS and NS tubers had 100% germination and regrowth without flooding (0-cm flooding depth). When planted at the soil surface (0-cm soil depth) and flooded by 3- to 5-cm, only 50 and 40% of PS while 20% of NS tubers germinated. No germination was seen on tubers buried under 5- to 10-cm soil depths and flooded by 3- to 5-cm depths. Revived PS tubers buried and flooded for 100 days at 0-, 5- and 10-cm depths had 20 to 60% germinations at 3-cm flooding depth and 20 to 70% at 5-cm flooding depth; NS tubers had 40 to 50% germinations at 3-cm flooding depth and 40% at 5-cm flooding depth. Growth variables of the weed at shoot clipping periods of 10, 20 and 30 DAP were comparable to the control under saturated conditions. Growth variables were reduced by 68 to 97.3% and 21.7 to 100% when aided by early and late flooding, respectively. This information could be used in the formulation of effective and comprehensive weed management for LE-CYPRO.

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低地生态型圆草再生对土壤深度、剪枝和淹水深度的响应

低地生态型圆柏（LE-CYPRO）的块茎可以在淹水条件下生长和存活。然而，关于其块茎对土壤深度或枝条修剪与洪水结合的反应的信息尚不可用。进行了两个实验来确定LE-CYPRO块茎的发芽和再生对土壤深度、枝条修剪和洪水深度干预的响应。实验1涉及预发芽（PS）和未发芽（NS）的块茎，它们受到三个土壤深度（0、5和10cm）和三个淹水深度（0，3和5cm）的影响；实验2使用在三种水条件（饱和、早期淹水和后期淹水）下，在种植后10、20和30天（DAP）对PS块茎进行修剪。无论土壤深度如何，PS和NS块茎在没有淹水（0厘米淹水深度）的情况下都能100%发芽和再生。当种植在土壤表面（0厘米土壤深度）并淹没3到5厘米时，只有50%和40%的PS和20%的NS块茎发芽。埋在5至10厘米土壤深处并被淹没3至5厘米深处的块茎没有发芽。在0、5和10厘米深度埋置和淹水100天的再生PS块茎在3厘米淹水深度有20%至60%的发芽率，在5厘米淹水深度则有20%至70%的发芽率；NS块茎在3厘米淹水深度有40%至50%的发芽率，在5厘米淹水深度发芽率为40%。在10、20和30DAP的剪梢期，杂草的生长变量与饱和条件下的对照相当。在早期和晚期洪水的帮助下，增长变量分别减少了68%至97.3%和21.7%至100%。这些信息可用于制定LE-CYPRO的有效和全面的杂草管理。

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来源期刊

Mindanao Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-

CiteScore

0.90

自引率

0.00%

发文量