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生态学杂志 ›› 2021, Vol. 40 ›› Issue (10): 3125-3134.doi: 10.13292/j.1000-4890.202110.011

• 研究报告 • 上一篇    下一篇

稻鸭共育下施用生物炭对水稻茎秆及倒伏性状的影响

孟祥杰1,2,梁玉刚3,邹紫茵1,2,王忍1,2,苏雨婷1,龚向胜1,2,黄璜1,2*,陈灿1,2*   

  1. 1湖南农业大学农学院, 长沙 410128;2湖南省稻田生态种养工程技术研究中心, 长沙 410128;3湖南省农业科学院水稻研究所, 长沙 410128)
  • 出版日期:2021-10-10 发布日期:2022-04-01

Effects of biochar application on stem and lodging characters of rice in the rice-duck farming system.

MENG Xiang-jie1,2, LIANG Yu-gang3, ZOU Zi-yin1,2, WANG Ren1,2, SU Yu-ting1, GONG Xiang-sheng1,2, HUANG Huang1,2*, CHEN Can1,2*   

  1. (1College of Agriculture, Hunan Agricultural University, Changsha 410128, China; 2Hunan Rice Field Ecological Breeding Engineering Technology Research Center, Changsha 410128, China; 3Rice Research Institute, Hunan Academy of Agricultural Sciences, Changsha 410128, China).
  • Online:2021-10-10 Published:2022-04-01

摘要: 水稻倒伏可降低水稻产量及稻米品质,影响稻作生产的经济效益。为探究生物炭及稻鸭共育结合对水稻茎秆及倒伏性状的影响,本研究设计了生物炭+鸭(CD)、生物炭+不养鸭(CR)、不施生物炭+养鸭(D)及不施生物炭+不养鸭(R)的大田对比试验,分析了水稻茎秆形态结构、解剖结构及力学特征。结果表明:与R处理相比,CD、CR、D水稻的重心高度与节间长度均有所降低,茎粗与节间充实度均有所增加,维管束面积得到了显著提高,第1节、第2节、第3节的增幅分别为24.15%~35.91%、12.75%~62.19%、4.66%~73.87%,水稻维管束形态也发生了改变;同时,水稻各节间的弯曲力矩及倒伏指数均有所下降,第1节、第2节、第3节、第4节的弯曲力矩下降幅度分别为24.05%~31.65%、24.55%~26.27%、32.28%~37.83%、21.79%~32.37%,第1节、第2节的倒伏指数的下降幅度分别为45.69%~52.04%、38.86%~48.16%,水稻茎秆抗折力也有所增加,第1节、第2节的抗折力增幅分别为19.86%~54.02%、20.62%~39.23%;茎秆抗折力与节间充实度、茎粗呈正相关,与长度呈负相关;各节间倒伏指数与节间充实度呈显著负相关,与节间长度与弯曲力矩呈显著正相关。因此,稻鸭共育下施用生物炭可降低重心高度,提高节间充实度,改变维管束形态,提高水稻的抗倒伏能力。

关键词: 稻鸭共育, 生物炭, 形态结构, 解剖结构, 倒伏

Abstract: Rice lodging can reduce rice yield and quality, with consequences on the economic benefits of rice production. In order to explore the effects of the combination of biochar and rice-duck co-cultivation on rice stalk and lodging traits, we carried out an experiment with four treatments, including applying biochar with raising ducks in paddy field (CD), applying biochar without raising ducks in paddy field (CR), no biochar with raising ducks in paddy field (D), and no biochar and no ducks in paddy field (R). We analyzed the morphological structure, anatomical structure and mechanical characteristics of rice stalks. The results showed that, compared with the treatment R, the height of the center of gravity and the length of the internodes of rice were reduced, the stem thickness and internode fullness were increased, and the area of vascular bundles was significantly increased under treatments of CD, CR, and D. The increases of the first internode, the second internode, and the third internode were 24.15%-35.91%, 12.75%-62.19%, and 4.66%-73.87%, respectively. The morphology of rice vascular bundles changed, while the bending moment and lodging index of rice internodes decreased. The bending moments of the first internode, the second internode, the third internode and the fourth internode decreased by 24.05%-31.65%, 24.55%-26.27%, 32.28%-37.83%, and 21.79%-32.37%, respectively. The lodging index of the first and the second internodes decreased by 45.69%-52.04% and 38.86%-48.16%, respectively. The bending resistance of rice stalks also increased, with an increase rate of 19.86%-54.02% and 20.62%-39.23% for the first and the second internodes, respectively. The bending resistance was positively correlated with internode fullness and stem thickness, and negatively correlated with length. The lodging index of each internode was significantly negatively correlated with the internode fullness, but positively related to the internode length and bending moment. Therefore, the application of biochar in rice-duck farming system can reduce the height of the center of gravity, increase internode fullness, change vascular bundle morphology, and thus improve lodging resistance of rice.

Key words: rice-duck mutualism, biochar, morphological structure, anatomical structure, lodging.