Artificial defoliation and its impact on the agronomic performance of sunflower in a non-preferential season

Matheus Guilherme Libardoni Meotti, I. Carvalho, Murilo Vieira Loro, José Antonio Gonzalez Silva, F. Lautenchleger
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Abstract

The objective of this work was to evaluate the partitioning of photoassimilates in sunflower plants sown in a non-preferential season coincident with the occurrence of fallow areas in the region, submitted to artificial defoliation with 100% intensity, in different phenological stages of the reproductive period. The experimental design used was randomized blocks with six treatments and three replications, consisting of 18 experimental units and all plants were defoliated. The treatments performed were artificial defoliation, I: No defoliation (control); II: Defoliation at the R1 phenological stage; III: Defoliation at the R3 phenological stage; IV: Defoliation at the R5 phenological stage; V: Defoliation at the R7 phenological stage and VI: Defoliation at the R8 phenological stage. Artificial defoliation performed at 100% intensity at different phenological stages influences the morphological attributes and yield components of sunflower in a distinct way. Defoliations performed at R1 phenological stage have a negative effect on most of the variables analyzed, which provided lower plant height, stem diameter, capitulum diameter, number of rows of achenes, number of achenes per row, achene length, achene width, thousand achene mass and, consequently, in grain yield. This phenological stage was marked by the beginning of the reproductive period, which has a high demand for photoassimilates to maintain plant metabolism and yield. Defoliation performed at R8 phenological stage had better performance for plant height, capitulum diameter, capitulum mass, number of rows of achenes, number of achenes per row, number of plants per hectare and grain yield (>1000 kg ha-1). The plants of experimental units without defoliation had results similar to those defoliated in the R8 phenological stage, however, they still had better performance for thousand achene mass, achene length, achene width, volume index and even a smaller diameter of missing seeds.
人工落叶及其对向日葵非优惠季农艺表现的影响
这项工作的目的是评估在该地区出现休耕区的非优惠季节播种的向日葵植物在生殖期的不同物候阶段光同化物的分配情况。实验采用随机区组设计,有六个处理和三次重复,共 18 个实验单元,所有植物都被落叶。进行的处理为人工落叶,I:I:不落叶(对照);II:R1物候期落叶;III:R3物候期落叶;IV:R5物候期落叶;V:R7物候期落叶;VI:R8物候期落叶。在不同物候期以 100%强度进行的人工落叶对向日葵的形态属性和产量成分有不同的影响。在 R1 物候期进行的落叶对大多数分析变量都有负面影响,导致植株高度、茎杆直径、头状花序直径、瘦果行数、每行瘦果数、瘦果长度、瘦果宽度、瘦果千粒重降低,进而影响谷物产量。这一物候期的特点是生殖期开始,需要大量光同化物来维持植物的新陈代谢和产量。在 R8 物候期进行落叶,在株高、头状花序直径、头状花序质量、瘦果行数、每行瘦果数、每公顷植株数和谷物产量(大于 1000 千克/公顷)方面都有更好的表现。未落叶试验单位的植株与 R8 物候期落叶的植株结果相似,但它们在瘦果千粒重、瘦果长度、瘦果宽度、体积指数,甚至是较小的缺籽直径方面仍有更好的表现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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