Little prairie under the panel: testing native pollinator habitat seed mix establishment at three utility-scale solar sites in Minnesota

IF 2.5 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
James McCall, Brenda Beatty, Jake Janski, Kate Doubleday, Jordan Martin, Heidi Hartmann, Leroy J Walston and Jordan Macknick
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Abstract

As more land is being utilized for large-scale solar energy projects, there are increasing discussions from stakeholders on how to utilize land under solar panels to promote biodiversity. One path is to plant habitat beneficial to pollinators and other insects, but there have been few long-term studies that examine how different vegetation and seed mixes establish underneath solar panels. This study addresses a scientific gap to determine whether native pollinator seed mixes successfully establish over time under solar arrays using a systematic assessment of eight seed mixes planted at three utility-scale solar sites in Minnesota. We assess establishment with a percent native coverage metric, which is an assessment of native species observations compared to total observations during percent cover analyses in our vegetative test plots. The percent native coverage metric allows for a measurement of how the seed mix established and how the seed mix persists over time. The percent native coverage under and in between the solar photovoltaic (PV) arrays rose from 10% after one year of planting to 58% after three years across all sites, while the native coverage of the full sun control area rose from 9.6% to 70% under the same period, showing that native prairie and pollinator plants successfully established under the array, although to a lesser extent than in full sun conditions. Percent native coverage under the PV arrays rose 5- to 8-fold for each of the three sites from over the course of the study, while the coverage of weeds decreased for all three sites over the same period. Percent native coverage varied by seed mix over the project years, but every seed mix experienced a higher percent native coverage year after year under the PV arrays. Our results did not indicate a difference in establishment across placement within the array; the center, west, and east portions of the areas in between panels had similar establishment rates at two out of three sites, indicating that the same seed mix can be applied throughout the array. Out of 101 plant species seeded, we observed the establishment of 68 species in our vegetative test plots, and we detailed the top 20 observed species to inform future seed mix development. Based on these findings, native pollinator vegetation can establish over time at solar arrays, and it can be suitable for creating habitat at utility-scale solar sites.
面板下的小草原:在明尼苏达州三个公用事业级太阳能发电站测试本地授粉者栖息地混合种子的建立情况
随着越来越多的土地被用于大型太阳能项目,利益相关者越来越多地讨论如何利用太阳能电池板下的土地来促进生物多样性。其中一个途径是种植对授粉昆虫和其他昆虫有益的栖息地,但很少有长期研究来考察不同的植被和种子组合如何在太阳能电池板下建立。本研究填补了这一科学空白,通过对明尼苏达州三个公用事业级太阳能基地种植的八种混合种子进行系统评估,确定本地传粉昆虫混合种子是否能随着时间的推移在太阳能电池阵下成功建立。我们采用原生植物覆盖率百分比指标来评估建立情况,该指标是在植被试验小区进行覆盖率百分比分析时,将观察到的原生物种与观察到的总物种进行比较。原生物种覆盖率指标可用于衡量混合种子的建立情况以及混合种子的长期存活情况。在所有地点,太阳能光伏阵列下和阵列之间的原生植物覆盖率从种植一年后的 10% 上升到三年后的 58%,而在同一时期,全日照对照区的原生植物覆盖率从 9.6% 上升到 70%,这表明原生草原植物和授粉植物成功地在阵列下建立了植被,尽管其程度低于全日照条件下的植被。在研究过程中,三个地点的光伏阵列下的原生植物覆盖率都上升了 5 到 8 倍,而同期三个地点的杂草覆盖率都有所下降。在项目实施的几年中,不同混合种子的原生覆盖率各不相同,但在光伏阵列的作用下,每种混合种子的原生覆盖率都逐年提高。我们的结果并未显示阵列内不同位置的建植率存在差异;在三个地点中的两个地点,电池板之间区域的中部、西部和东部的建植率相似,这表明可以在整个阵列中使用相同的混合种子。在播种的 101 个植物物种中,我们观察到 68 个物种在无性系试验小区中成活,并详细列出了观察到的前 20 个物种,为未来混合种子的开发提供参考。根据这些研究结果,本地授粉者植被可以在太阳能电池阵上逐渐形成,并且适合在公用事业规模的太阳能发电站创建栖息地。
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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来源期刊
Environmental Research Communications
Environmental Research Communications ENVIRONMENTAL SCIENCES-
CiteScore
3.50
自引率
0.00%
发文量
136
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