Activated carbon seed technologies: Innovative solutions to assist in the restoration and revegetation of invaded drylands.

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Journal of Environmental Management Pub Date : 2024-11-13 DOI:10.1016/j.jenvman.2024.123281
Kirk W Davies, Danielle R Clenet, Matthew D Madsen, Vanessa S Brown, Alison L Ritchie, Lauren N Svejcar
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Abstract

The demand for seed-based restoration and revegetation of degraded drylands has intensified with increased disturbance and climate change. Invasive plants often hinder the establishment of seeded species; thus, they are routinely controlled with herbicides. Herbicides used to control invasive plants may maintain soil activity and cause non-target damage to seeded species. Activated carbon (AC), which has a high adsorption of many herbicides, has been incorporated into seed pellets and coatings (seed technologies) to limit herbicide damage. Though various AC seed technologies have been examined in numerous laboratory and field studies, questions remain regarding their effectiveness and how to improve it, and what causes variation in results. We synthesized the literature on AC seed technologies for dryland restoration and revegetation to attempt to answer these questions. AC pellets compared to seed coatings were more thoroughly tested in the field and generally provide strong herbicide protection. However, greater amounts of AC in seed coatings appear to increase their effectiveness. Seed coatings show more potential for use than pellets because they are less logistically challenging to use compared to pellets, but need more field testing and refinement. Results often differ between laboratory and field studies, suggesting that field studies are critical in determining realized effects. However, seedling establishment failures from other barriers make it challenging to evaluate the effectiveness of AC seed technologies in the field. AC seed technologies are an innovative tool that with continued refinement, especially if other barriers to seedling establishment can be overcome, may improve the restoration and revegetation of degraded drylands.

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活性炭种子技术:协助受入侵旱地恢复和重新植被的创新解决方案。
随着干扰的增加和气候变化的加剧,对以种子为基础的退化旱地恢复和重新植被的需求也在增加。入侵植物通常会阻碍播种物种的生长,因此,人们通常使用除草剂来控制入侵植物。用于控制入侵植物的除草剂可能会保持土壤活性,并对播种物种造成非目标损害。活性碳(AC)对许多除草剂有很强的吸附性,已被纳入种子颗粒和包衣(种子技术)中,以限制除草剂的损害。虽然各种活性炭种子技术已在大量实验室和田间研究中得到检验,但有关其有效性、如何改进以及导致结果差异的原因等问题依然存在。我们综合了有关旱地恢复和重新植被的 AC 种子技术的文献,试图回答这些问题。与种子包衣相比,交联剂颗粒在田间进行了更彻底的测试,通常能提供强有力的除草剂保护。不过,种子包衣中更多的 AC 似乎会提高其效果。种子包衣比颗粒剂更有使用潜力,因为与颗粒剂相比,使用种子包衣在物流方面的挑战更小,但还需要更多的实地测试和改进。实验室研究和实地研究的结果往往不同,这表明实地研究对于确定实现的效果至关重要。然而,由于其他障碍造成的育苗失败,使得在田间评估交流电种子技术的效果具有挑战性。交流式种子技术是一种创新工具,随着不断改进,特别是如果能克服其他育苗障碍,可能会改善退化旱地的恢复和重新植被。
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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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