Publication Details |
| Category | Text Publication |
| Reference Category | Preprints |
| DOI | 10.1101/2024.02.06.578731 |
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| Title (Primary) | Old, deciduous stands support both high biodiversity and carbon storage in German forests |
| Author | Springer, K.; Manning, P.; Boesing, A.L.; Ammer, C.; Fiore-Donno, A.M.; Fischer, M.; Goldmann, K.
; Le Provost, G.; Overmann, J.; Ruess, L.; Schoening, I.; Seibold, S.; Sikorski, J.; Neyret, M. |
| Source Titel | bioRxiv |
| Year | 2024 |
| Department | BOOEK |
| Language | englisch |
| Topic | T5 Future Landscapes |
| Abstract | Ecosystems worldwide face threats related to human-driven degradation, climate change, and biodiversity loss. Addressing these challenges requires management strategies that combine biodiversity conservation with climate change mitigation. Here, we aimed to identify local-scale management actions that promote biodiversity at multiple trophic levels while also promoting carbon storage and sequestration. We combined data on the diversity of nine taxonomic groups (plants, birds, moths, Mollusca, soil fungi, active soil bacteria, Cercozoan and Endomyxan soil protists, Oomycotan soil protists, and nematodes), with above- and belowground carbon storage in 150 temperate forest plots in three regions of Germany. These were dominated by European beech, pine, spruce and oak. We investigated the relationships between multiple forest structure and management variables, biodiversity and carbon storage and sequestration in forest plots with different management types. Carbon storage was 32% higher in uneven-aged than even-aged forests and increased with mean tree diameter, while carbon sequestration in trees was 15% higher in even-aged than uneven-aged stands. Mean tree diameter was positively related to overall biodiversity, especially bird species richness and the richness of forest specialist birds. Oak and beech-dominated stands harboured higher biodiversity than stands dominated by conifers (especially Pine). One exception to this was the richness of plant species and forest specialist plants, which were highest in spruce plantations. Surprisingly, deadwood input did not significantly affect the diversity of any taxonomic group in this study. By showing that older forests with a high proportion of uneven-aged broad-leafed trees, or oak-dominated forests, can promote both biodiversity and carbon storage, our results could help inform sustainable local-scale forest management in Central Europe that promotes both biodiversity conservation and carbon storage. These findings can form the basis of further larger-scale studies investigating such relations at larger spatial scales to inform landscape-level recommendations for sustainable multifunctional forest management. |
| Persistent UFZ Identifier | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=28757 |
| Springer, K., Manning, P., Boesing, A.L., Ammer, C., Fiore-Donno, A.M., Fischer, M., Goldmann, K., Le Provost, G., Overmann, J., Ruess, L., Schoening, I., Seibold, S., Sikorski, J., Neyret, M. (2024): Old, deciduous stands support both high biodiversity and carbon storage in German forests bioRxiv 10.1101/2024.02.06.578731 |
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