Diekmann Lara, Zitzmann Felix, Schaarschmidt Frank, Reich Michael
Institute of Environmental Planning Leibniz University Hannover Hannover Germany.
Institute of Cell Biology and Biophysics, Biostatistics Section, Leibniz University Hannover Hannover Germany.
Ecol Evol. 2025 Aug 14;15(8):e71864. doi: 10.1002/ece3.71864. eCollection 2025 Aug.
Agrivoltaic is the dual use of land for agriculture and solar energy generation and can therefore be an opportunity to prevent land-use conflicts with food production in the context of renewable energy expansion. At the same time, agrivoltaic could have an impact on biodiversity, especially on farmland birds. We investigated the habitat use of birds on a high-mounted agrivoltaic trial plot with chive culture () in northern Germany. Over a one-year period, we surveyed bird use on the plot, in three neighboring plots (without agrivoltaic but also cultivated with chives of different age-classes) and an intervening tree row at two-week intervals using standardized bird counts. Additionally, we detected bird use within the plot and an adjacent plot by camera traps. The results of the bird counts showed no significant differences in the number of species per visit between the and the other chive plots (except the tree row) as well as in the number of observations per visit between and any of the other plots. However, the direct comparison of and showed that the number of species and observations per visit were higher on the . Camera trapping revealed no difference between and in terms of the number of bird species and detections per camera trap. Most of the species with high presence on the agrivoltaic were widespread, common species, adapted to anthropogenic structures, like White Wagtail and Black Redstart. In contrast, the Yellow Wagtail, a species of open landscapes, showed a higher visit frequency and use intensity on the . Overall, the investigated agrivoltaic did not appear to prevent habitat use of most farmland birds-apart from bird species of open landscapes. However, there is a considerable need for further research on the effects of agrivoltaic on birds and biodiversity.
农光互补是指将土地同时用于农业和太阳能发电,因此在可再生能源扩张的背景下,它可能成为避免土地利用与粮食生产发生冲突的一个契机。与此同时,农光互补可能会对生物多样性产生影响,尤其是对农田鸟类。我们在德国北部一块种植细香葱的高架农光互补试验田上调查了鸟类的栖息地利用情况。在一年的时间里,我们每隔两周使用标准化鸟类计数法,对该试验田、三个相邻地块(无农光互补设施,但也种植了不同年龄阶段的细香葱)以及中间的一排树木进行鸟类利用情况调查。此外,我们还通过相机陷阱监测了试验田和相邻地块内的鸟类利用情况。鸟类计数结果显示,试验田与其他细香葱地块(除树木排外)每次访问的物种数量以及试验田与其他任何地块每次访问的观测数量均无显著差异。然而,试验田与相邻地块的直接比较表明,试验田每次访问的物种数量和观测数量更高。相机陷阱监测显示,试验田和相邻地块在每个相机陷阱监测到的鸟类物种数量和探测次数方面没有差异。在农光互补区域出现频率较高的大多数物种都是分布广泛的常见物种,适应人为结构,如白鹡鸰和黑红尾鸲。相比之下,开阔景观物种黄鹡鸰在相邻地块的访问频率和利用强度更高。总体而言,除开阔景观鸟类物种外,所调查的农光互补区域似乎并未妨碍大多数农田鸟类对栖息地的利用。然而,对于农光互补对鸟类和生物多样性的影响,仍有相当大的进一步研究需求。
