围栏对刺萼龙葵植株风滚传播阻断机制

doi:10.13292/j.1000-4890.202512.027

生态学杂志 ›› 2025, Vol. 44 ›› Issue (12): 3932-3938.doi: 10.13292/j.1000-4890.202512.027

围栏对刺萼龙葵植株风滚传播阻断机制

于航¹,周全来^1*,曹伟¹,张悦¹,马瑛培²,马巍格³，姜艳⁴，王永翠¹，崔雪⁵，张梦莹⁶

(¹中国科学院沈阳应用生态研究所，沈阳 110016; ²沈阳大学环境学院，沈阳 110044; ³沈阳农业大学生物科学技术学院，沈阳 110866; ⁴中国科学院大学，北京 100049; ⁵辽宁省林业和草原有害生物防治检疫工作站，沈阳 110804; ⁶甘肃省产品质量监督检验研究院，兰州 730050)

出版日期:2025-12-10 发布日期:2025-12-04

Interception mechanism of tumbleweed dispersal of Solanum rostratum by fences.

YU Hang¹, ZHOU Quanlai^1*, CAO Wei¹, ZHANG Yue¹, MA Yingpei², MA Weige³, JIANG Yan⁴, WANG Yongcui¹, CUI Xue⁵, ZHANG Mengying⁶

(¹Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, China; ²College of Environment, Shenyang University, Shenyang 110044, China; ³College of Bioscience and Biotechnology, Shenyang Agricultural University, Shenyang 110866, China; ⁴University of Chinese Academy of Sciences, Beijing 100049, China; ⁵Station of Forest and Grassland Pest Control and Quarantine of Liaoning Province, Shenyang 110804, China; ⁶Gansu Provincial Institute of Product Quality Supervision and Inspection, Lanzhou 730050, China).

Online:2025-12-10 Published:2025-12-04

摘要/Abstract

摘要： 刺萼龙葵的传播拦截是遏制其入侵新生境和大尺度蔓延的关键。本研究针对刺萼龙葵风滚植物传播特征，利用风洞模拟方法测定成熟植株的折断风速，开展随机区组试验监测围栏对刺萼龙葵的传播拦截效果。研究发现，成熟的刺萼龙葵植株在风速为14 m·s^-1时仍未折断；围封的刺萼龙葵危害区，99.1%的植株未被风力折断，而0.9%的植株是围栏构建时被人为折断。在野外，刺萼龙葵的果实不易从植株上脱落，未发现果实在风力作用下穿过围栏现象。小孔（3 cm×3 cm）、中孔（6 cm×6 cm）、大孔（12 cm×12 cm）和超大孔（20 cm×40 cm）围栏均能有效拦截刺萼龙葵植株，不同围栏网孔的拦截效率无显著差别。50.0%刺萼龙葵植株可以翻越40 cm高的围栏，而围栏高度超过70 cm，刺萼龙葵植株则无法翻越。因此，刺萼龙葵并不是典型风滚植物，刺萼龙葵并非被当地自然风力吹折，而是由动物或人踩踏而折断。采用隔绝牲畜与人类干扰的措施，可以有效控制刺萼龙葵长距离扩散。

关键词: 风滚植物, 围栏网孔, 风洞模拟, 控制试验, 围栏高度

Abstract: Dispersal interception of Solanum rostratum is crucial for controlling its invasion into new habitats and large-scale spread. We used a wind tunnel simulation to determine the wind velocity required for stem breakage of the plant according to assumed dispersal characteristics of tumbleweed. An experiment following randomized block design was conducted to monitor the effect of fences on dispersal interception. We found that the mature plants were not broken when the wind speed was 14 m·s^-1. In the enclosed area, 99.1% of plants were not broken by wind, and 0.9% were artificially broken during fence construction. The fruits did not drop from the plant in the field, and so we did not find fruits passing through mesh holes of the fence by wind. Different fences with small (3 cm×3 cm), medium (6 cm×6 cm), large (12 cm×12 cm) and extra-large (20 cm×40 cm) mesh hole did not affect interception efficiency. Half of the plants were able to climb over 40 cm high fence, while the plants were unable to climb over 70 cm high fence. Therefore, S. rostratum is not a typical tumbleweed, and its stem can not be broken by wind, but could be broken by animals or people trampling. The long-distance dispersal of S. rostratum can be controlled effectively by preventing contact with livestock and human disturbance.

Key words: tumbleweed plant, mesh hole of fence, wind tunnel simulation, control test, fence height

于航, 周全来, 曹伟, 张悦, 马瑛培, 马巍格, 姜艳, 王永翠, 崔雪, 张梦莹. 围栏对刺萼龙葵植株风滚传播阻断机制[J]. 生态学杂志, 2025, 44(12): 3932-3938.

YU Hang, ZHOU Quanlai, CAO Wei, ZHANG Yue, MA Yingpei, MA Weige, JIANG Yan, WANG Yongcui, CUI Xue, ZHANG Mengying. Interception mechanism of tumbleweed dispersal of Solanum rostratum by fences. [J]. Chinese Journal of Ecology, 2025, 44(12): 3932-3938.

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围栏对刺萼龙葵植株风滚传播阻断机制

Interception mechanism of tumbleweed dispersal of Solanum rostratum by fences.

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