@misc{KuhnJenschFischeretal., author = {Kuhn, Ramona and Jensch, Robert and Fischer, Thomas and Keuler, Klaus and Bryant, Isaac Mbir and Martienssen, Marion}, title = {Sunlight Degradation of the Aminophosphonate Diethylenetriamine Penta-(Methylenephosphonic Acid)}, series = {Solar}, volume = {2}, journal = {Solar}, number = {2}, issn = {2673-9941}, doi = {10.3390/solar2020009}, pages = {141 -- 157}, abstract = {Aminophosphonate diethylenetriamine penta(methylenephosphonic acid) (DTPMP) is a scale inhibitor commonly used in several industries. DTPMP is suspected to cause anthropogenic pollution through discharge into the aquatic environment. DTPMP is assumed to be degraded by sunlight radiation. We recently predicted a preliminary degradation pathway of DTPMP applyingUV treatment. Currently, we have not yet evidenced that DTPMP shows the same degradation pattern with natural sunlight. One major reason leads to the fact that the light spectrum emitted by UV lamps does not completely represent the natural sunlight spectrum, and the emitted UVB and UVA irradiation flux is much higher than for solar light. For that reason, the degradation pattern and kinetics might be different between artificial UV treatment and natural sunlight treatment. Here, we investigated whether DTPMP is degradable under natural sunlight radiation, and whether the degradation mechanisms determined through UV treatment are transferable to sunlight. We investigated five different treatment conditions, i.e., DTPMP degradation in direct or diffuse sunlight, in diffuse sunlight with addition of Ca2+ or Mg2+, and in diffuse sunlight with local TW. Our experiment was carried out from March 2021 to October 2021. We performed LC/MS analyses and measured the release of o-PO4 3 . DTPMP was degraded with all five treatment conditions. The fastest DTPMP degradation occurred in direct and diffuse sunlight without addition of bivalent cations. The addition of Ca2+ and Mg2+ resulted in inhibited degradation. Similar effects occurred for sunlight treatment with local TW. We evidenced different degradation mechanisms for DTPMP depending on the presence of alkaline earth metals as we previously proposed for UV-treated DTPMP. However, both degradation mechanisms of DTPMP belong to the same degradation pathway determined with UV treatment. Therefore, we conclude that DTPMP undergoes a similar degradation pathway in sunlight as compared to UV light.}, language = {en} } @misc{GerlingDrechslerKeuleretal., author = {Gerling, Charlotte and Drechsler, Martin and Keuler, Klaus and Sturm, Astrid and W{\"a}tzold, Frank}, title = {Time to consider the timing of conservation measures: designing cost-effective agri-environment schemes under climate change}, series = {MPRA paper}, journal = {MPRA paper}, pages = {38}, language = {en} } @misc{GerlingDrechslerKeuleretal., author = {Gerling, Charlotte and Drechsler, Martin and Keuler, Klaus and Leins, Johannes A. and Radtke, Kai and Schulz, Bj{\"o}rn and Sturm, Astrid and W{\"a}tzold, Frank}, title = {Climate-ecological-economic modelling for the cost-effective spatiotemporal allocation of conservation measures in cultural landscapes facing climate change}, series = {Q Open}, volume = {2}, journal = {Q Open}, number = {1}, issn = {2633-9048}, doi = {10.1093/qopen/qoac004}, pages = {1 -- 20}, language = {en} } @misc{GerlingSturmWaetzoldetal., author = {Gerling, Charlotte and Sturm, Astrid and W{\"a}tzold, Frank and Keuler, Klaus and Radtke, Kai and Drechsler, Martin and Leins, Johannes A.}, title = {{\"O}konomie der Klimaanpassung zum Schutz der biologischen Vielfalt ; Postervorstellung : BfN Statuskonferenz "Biodiversit{\"a}t und Klimawandel - Synergien erforschen" in Berlin, 7.12.2023}, doi = {10.13140/RG.2.2.16540.97923}, pages = {2}, language = {de} } @misc{HerrmannKeulerWoltersetal., author = {Herrmann, Frank and Keuler, Klaus and Wolters, Tim and Bergmann, Sabine and Eisele, Michael and Wendland, Frank}, title = {Mit der Modellkette RCP-GCM-RCM-mGROWA projizierte Grundwasserneubildung als Datenbasis f{\"u}r zuk{\"u}nftiges Grundwassermanagement in Nordrhein-Westfalen}, series = {Grundwasser}, volume = {26}, journal = {Grundwasser}, number = {1}, issn = {1430-483X}, doi = {10.1007/s00767-020-00471-x}, pages = {17 -- 31}, abstract = {Mit einem Multi-Modell-Ensemble wurde analysiert, wie sich der Klimawandel auf den Grundwasserhaushalt in Nordrhein-Westfalen (NRW) auswirkt. Hierzu wurden Projektionen der zuk{\"u}nftigen Grundwasserneubildung f{\"u}r insgesamt 36 Mitglieder der Modellkette RCP-GCM-RCM-mGROWA, bestehend aus 3 RCP-Szenarien zuk{\"u}nftiger globaler Erw{\"a}rmung, 6 globalen und 5 dynamischen regionalen Klimamodellen sowie dem Wasserhaushaltsmodell mGROWA, vorgenommen. Mit dem Ensemble wurden f{\"u}r die hydrogeologischen Großr{\"a}ume NRWs nur teilweise signifikante {\"A}nderungen der j{\"a}hrlichen Grundwasserneubildung in den Perioden 2011-2040, 2041-2070 und 2071-2100 projiziert. Ein Robustheitstest mit zwei Kriterien ({\"U}bereinstimmung und Signifikanz der {\"A}nderungssignale) liefert keine belastbare Begr{\"u}ndung daf{\"u}r, dass sich die Grundwasserneubildung bis 2100 systematisch und signifikant {\"a}ndern wird. Aus statistischer Perspektive wird deshalb die Schlussfolgerung gezogen, dass in NRW langfristig eine Grundwasserneubildung erwartet werden kann, die sich nicht grundlegend vom Niveau der Periode 1971-2000 unterscheidet. Hydro-meteorologisch befindet sich NRW in einer {\"U}bergangszone, in der eine Zunahme der Winterniederschl{\"a}ge die Wirkung der Erw{\"a}rmung auf die Grundwasserneubildung wahrscheinlich kompensiert.}, language = {de} } @misc{GerlingDrechslerKeuleretal., author = {Gerling, Charlotte and Drechsler, Martin and Keuler, Klaus and Sturm, Astrid and W{\"a}tzold, Frank}, title = {Time to consider the timing of conservation measures: Designing cost-effective agri-environment schemes under climate change}, series = {Agricultural and Resource Economics Review}, volume = {52}, journal = {Agricultural and Resource Economics Review}, number = {2}, issn = {2372-2614}, doi = {10.1017/age.2023.4}, pages = {231 -- 249}, language = {en} } @misc{GerlingDrechslerKeuleretal., author = {Gerling, Charlotte and Drechsler, Martin and Keuler, Klaus and Leins, Johannes and Schulz, Bj{\"o}rn and Sturm, Astrid and W{\"a}tzold, Frank}, title = {Effektivit{\"a}t und Kosteneffizienz von Artenschutzmaßnahmen unter Klimawandel - das Beispiel der Sumpfschrecke (Stethophyma grossum) in Schleswig-Holstein}, series = {Natur und Landschaft}, volume = {100. Jahrgang 2025}, journal = {Natur und Landschaft}, number = {1}, isbn = {0028-0615-202501}, pages = {2 -- 8}, language = {de} }