This technical guide serves as a starting point for the establishment and management of pollinator-friendly ground cover at ground-mounted solar photovoltaic arrays. This guide is intended to serve as a resource in understanding pollinator-friendly solar components and identify organizations,vendors, and experts who can provide more site-specific guidance. Also provided here are general guides for seed-mix development, planting layout and maintenance of pollinator-friendly vegetation to be used in agrivoltaic systems.
Tag Archive for: Pollinators
This fact sheet provides tips, facts, and guidance on a variety of agrivoltaic-related practices for solar projects and native vegetation in South Dakota. The fact sheet includes information on how to add product value, planning, cost, seeding, management, and construction. The resource also provides examples of native seed mixes for the region of South Dakota.
This fact sheet provides tips, facts, and guidance on a variety of agrivoltaic-related practices for solar projects and native vegetation in Iowa. The fact sheet includes information on how to add product value, planning, cost, seeding, management, and construction. The resource also provides examples of native seed mixes for the region of Iowa. Also included in this fact sheet are a short summary of best practices for agrivoltaic operations in Iowa.
This report explores the synergies between farming and solar photovoltaics with the premises that agricultural production on farmland should be maintained and farm profitability and soil health should be improved. This report explores whether a strong case can be made from a public policy point-of-view for developing solar so that it helps to preserve and improve farmland and the ecosystem in which it is located, while enabling achievement of both energy system and food system goals. The report covers many topics related to agrivoltaic systems including soil health, loss of land to development and electricity and agricultural land context.
This study addresses how land is being converted to accommodate for solar farms, and the potential for pollinator habitat to be established at solar farms in North Carolina. This report reveals that, based on previous land use, alternative vegetation selection, and cost comparison with current vegetation management techniques, the potential to create pollinator habitat at solar farms in North Carolina is likely to be feasible. The report covers suggested vegetation, estimated land-use acreage and cost analysis for agrivoltaic operations in North Carolina.
Starting in 2019, insect inventories were collected from a solar facility in Jackson County, Oregon as part of a study on plant-pollinator interactions in agrivoltaic systems. This study investigated the effects of solar arrays on plant composition, bloom timing and foraging behavior of pollinators in open fields, and in full shade and partial shade areas under solar panels in a predominant agricultural region of southern Oregon. The report shows that typically unused ground under solar panels can be used for pollinator habitat that benefits pollinating insects.
The Electric Power Research Institute (EPRI) worked with the Xerces Society for Invertebrate Conservation to develop this report, which synthesizes the scientific literature and existing best management practices for monarch butterflies, along with input from a survey of monarch experts and a survey of EPRI members. This technical report includes details surrounding herbicide use, controlling invasive species, brush and tree management, mowing, prescribed fire, grazing, and restoration and revegetation. Also presented is that it is important to consider the specific land asset type in relation to supporting monarchs, including transmission lines, distribution lines, power plant sites, surplus properties, solar sites, wind sites, and substations.
This paper highlights and discuss ongoing efforts to couple solar energy production with pollinator conservation, noting recent legal definitions of these practices. It also summarizes key studies from the field of ecology, bee conservation, and the author’s experience working with members of the solar industry. The paper specifically addresses how solar facilities are designed and spread to the public and highlights ongoing efforts to couple solar energy production with preservation of pollinators and their habitat. Other details in this paper focus on native, perennial flowering and their association with the sustainability of beekeeping and bee preservation.
This summary provides a comprehensive overview of bird mortality patterns in utility scale photovoltaic solar. It synthesizes results from fatality monitoring studies at 10 photovoltaic solar facilities across 13 site years in California and Nevada. The report also addresses vegetation that is often removed in regions such as deserts in the southwestern U.S. However, the benefits of site restoration to pollinators and other wildlife have been recently recognized and developers in some regions of the U.S. are moving towards ecologically-based site restoration and low impact site restoration.
In this webinar from the Indiana Conservation Cropping System Initiative, AgriSolar Clearinghouse partner Greg Barron-Gafford provides an agrivoltaics primer and a discussion of potential for agrivoltaics in climate-smart crop practices. Byron Kominek then describes his successful agrivoltaic farm, Jack’s Solar Garden. Byron describes ongoing studies, farm economics, community development, and education programs at the farm. Stacie Peterson closes the webinar with a description of the agrivoltaic resources available in the AgriSolar Clearinghouse.