TY  - JOUR
A1  - Radosavljevic, Boris
A1  - Lantuit, Hugues
A1  - Knoblauch, Christian
A1  - Couture, Nicole
A1  - Herzschuh, Ulrike
A1  - Fritz, Michael
T1  - Arctic nearshore sediment dynamics - an example from Herschel Island - Qikiqtaruk, Canada
JF  - Journal of marine science and engineering
N2  - Increasing arctic coastal erosion rates imply a greater release of sediments and organic matter into the coastal zone. With 213 sediment samples taken around Herschel Island-Qikiqtaruk, Canadian Beaufort Sea, we aimed to gain new insights on sediment dynamics and geochemical properties of a shallow arctic nearshore zone. Spatial characteristics of nearshore sediment texture (moderately to poorly sorted silt) are dictated by hydrodynamic processes, but ice-related processes also play a role. We determined organic matter (OM) distribution and inferred the origin and quality of organic carbon by C/N ratios and stable carbon isotopes delta C-13. The carbon content was higher offshore and in sheltered areas (mean: 1.0 wt.%., S.D.: 0.9) and the C/N ratios also showed a similar spatial pattern (mean: 11.1, S.D.: 3.1), while the delta C-13 (mean: -26.4 parts per thousand VPDB, S.D.: 0.4) distribution was more complex. We compared the geochemical parameters of our study with terrestrial and marine samples from other studies using a bootstrap approach. Sediments of the current study contained 6.5 times and 1.8 times less total organic carbon than undisturbed and disturbed terrestrial sediments, respectively. Therefore, degradation of OM and separation of carbon pools take place on land and continue in the nearshore zone, where OM is leached, mineralized, or transported beyond the study area.
KW  - permafrost
KW  - Arctic Ocean
KW  - stable carbon isotopes
KW  - nitrogen
KW  - sediment
KW  - chemistry
KW  - sediment dynamics
KW  - Beaufort Sea
KW  - grain size
Y1  - 2022
U6  - https://doi.org/10.3390/jmse10111589
SN  - 2077-1312
VL  - 10
IS  - 11
PB  - MDPI
CY  - Basel
ER  - 
TY  - THES
A1  - Fritz, Christina
T1  - Der Einfluß des primären Stickstoffstoffwechsels auf den Aminosäure- und Sekundärstoffwechsel in Nicotiana tabacum L.
T1  - The impact of primary nitrogen metabolism on amino acid and secondary metabolism in Nicotiana tabacum L.
N2  - Es ist bekannt, dass Änderungen im Kohlenstoff- bzw. Stickstoffstaus der Pflanzen zu einer parallelen statt reziproken Änderung der kohlenstoff- und stickstoffhaltigen Primärmetabolite führen. Unter diesem Gesichtspunkt wurden in der vorliegenden Arbeit der Aminosäurestoffwechsel und der Sekundärstoffwechsel unter reduzierten Stickstoffbedingungen untersucht. Zur Beeinflussung des Stickstoffstoffwechsels wurden nitratmangelernährte Tabakwildtyppflanzen und Genotypen mit unterschiedlich stark reduzierter Nitratreduktase-Aktivität verwendet. Dieses experimentelle System erlaubt zusätzlich durch den Vergleich Nitrat defizienter Wildtyppflanzen mit Nitrat akkumulierenden NIA-Transformanten Prozesse zu identifizieren, die durch Nitrat gesteuert werden. Die Analysen der Primär- und Sekundärmetabolite wurde in allen Genotypen diurnal durchgeführt, um auch tageszeitlich abhängige Prozesse zu identifizieren. Die Analyse der absoluten Gehalte aller individuellen Aminosäuren enthüllte bei den meisten erstaunlich stabile diurnale Muster mit einem Anstieg während des Tages und einem Abfall in der Nacht in Wildtyppflanzen gewachsen mit ausreichend Nitrat. Dieses Ergebnis legt die Schlussfolgerung nahe, dass die Biosynthese der Aminosäuren koordiniert abläuft. In Pflanzen mit reduziertem Stickstoffstatus haben diese diurnalen Muster jedoch keinen Bestand. Die Kombination des erzeugten stickstoffbasierten Aminosäuredatensatz in Kombination mit einem bereits erzeugten Aminosäuredatensatz unter kohlenstofflimitierten Bedingungen von Matt et al. (2002) führte durch Hauptkomponentenanalyse (PCA) und Korrelationsanalyse zu dem Ergebnis, dass die Hypothese nach einer koordinierten Aminosäurebiosynthese nicht allgemeine Gültigkeit hat. Die PCA identifizierte Glutamin, Glutamat, Aspartat, Glycin, Pheny-lalanin und Threonin als Faktoren, die den Datensätzen ihre charakteristische Eigenschaft und deren Varianz verleihen. Die Korrelationsanalyse zeigte, dass die sehr guten Korrelationen der individuellen Aminosäuren untereinander in reduzierten Stickstoff- und Kohlenstoffbedingungen sich verschlechtern. Das Verhältnis einer einzelnen Aminosäure relativ zu den anderen führte zur Identifizierung einiger Aminosäuren, die individuelle Antworten auf Stickstoff- und/oder Kohlenstoffstatus zeigen, und/oder speziell auf Nitrat, Licht und/oder den E-nergiestatus der Thylakoidmembran. Glutamat beispielsweise verhält sich in den meisten Situationen stabil, Phenylalanin dagegen zeigt in jeder physiologischen Situation eine individuelle Antwort. Die Ergebnisse dieser Arbeit führen zu einer Erweiterung der Hypothese einer koordinierten Synthese der Aminosäuren dahingehend, dass diese nicht generell für alle Aminosäuren angenommen werden kann. Es gibt einige Aminosäuren deren, Anteile sich situationsbedingt anpassen. Die Reduktion des Stickstoffstatus in nitratmangelernährten Tabakwildtyppflanzen führte zu der, nach der „Carbon-Nutrient-Balance“ Hypothese erwarteten Verlagerung der kohlenstoffreichen Phenylpropanoide und des stickstoffreichen Nikotins. Die Erhöhung der Phenylpropanoidgehalte war nicht in der Nitrat akkumulierenden NIA-Transformante zu beobachten und somit konnte Nitrat als regulatorisches Element identifiziert werden. Ein Einfluss der Vorläufermetabolite konnte ausgeschlossen werden, da sowohl nitratmangelernährter Wildtyp als auch die Nitrat akkumulierende NIA-Transformante ähnliche Gehalte dieser aufwiesen. Genexpressionsanalysen über Mikroarray-Hybridisierung und quantitative RT-PCR zeigten, dass Nitrat durch noch nicht geklärte Mechanismen Einfluss auf die Expression einiger Gene nimmt, die dem Phenylpropanoidstoffwechsels zugeordnet sind. Aus der Arbeit hervorgegangene Veröffentlichungen: Christina Fritz, Natalia Palacios-Rojas, Regina Feil und Mark Stitt (2006) Regulation of Secondary Metabolism by the Carbon-Nitrogen Status in Tobacco: Nitrate Inhibits Large Sectors of Phenylpropanoid Metabolism. Plant Journal 46, 533 - 548 Christina Fritz, Petra Matt, Cathrin Müller, Regina Feil und Mark Stitt (2006) Impact of the Carbon-Nitrogen Status on the Amino Acid Profile in Tobacco Source Leaves. Plant, Cell and Environment 29 (11), 2009 - 2111
N2  - It is known that changes in carbon and nitrogen status of a plant lead to parallel rather than reciprocal changes of carbon and nitrogen containing primary metabolites. Based on this finding the influence of carbon and nitrogen status on the amino acid profile as well as on secondary metabolism was investigated in tobacco. Manipulations of the nitrogen status were carried out in two ways: Tobacco wild type plants were cultivated in nitrogen-replete and nitrogen starved conditions; in addition nitrate accumulating transformants with reduced nitrate reductase (NIA) activity were used. The comparison of the nitrate starved wild type and the nitrate accumulating NIA-transformant allows to distinguish processes which were driven by the nitrogen status of a plant or by nitrate itself. Due to the fact that most primary metabolites have diurnal changes the analysis of primary and secondary metabolites were done at six different time points per day in order to identify diurnal processes. Analysis of the absolute levels of individual amino acids under normal nitrogen supply conditions reveals characteristic diurnal patterns for the majority of amino acids with an increase during the day and a decrease during the night. This result indicates that amino acid biosynthesis might be coordinated. However these diurnal patterns are no longer stable in plants with reduced nitrogen status; furthermore absolute levels of individual amino acids differed over a wide range of concentrations. The hypothesis of a coordinated regulation of amino acid metabolism was further tested by combining this dataset with an amino acid dataset produced under carbon limited conditions (Matt et al., 2002) and applying Principal Component Analysis (PCA) and correlation analysis. Glutamine, glutamate, aspartate, glycine, phenylalanine and threonine were responsible for the clear separation of the different genotypes and experimental conditions in the PCA plot. The data from the correlation analysis show that most of the minor amino acids have very good correlations under carbon and nitrogen sufficient conditions. These correlations became weaker with decreasing carbon and nitrogen status of the plants. These results clearly indicate that a coordinated biosynthesis of amino acids is not a general phenomenon. Comparing the levels of each individual amino acid to the total amino acid pool revealed specific answers of a particular amino acid to carbon and/or nitrogen status, to nitrate and/or light and to energy status of the thylakoid membrane. Glutamate for instance is remarkably stable in most of the conditions and phenylalanine shows an individual response in every situation. From these results it was concluded that the hypothesis of a coordinated biosynthesis of amino acids might be true for some amino acids, but clearly needs to be extended because some amino acids adjust their levels in an individual fashion depending on the external conditions. The reduction of nitrogen status of nitrate starved wild type plants leads to a shift from carbon-rich phenylpropanoids to nitrogen-rich nicotine as predicted by the “carbon-nutrient-balance hypothesis”. Increased phenylpropanoids were not observed in nitrate accumulating NIA-transformants. Therefore nitrate could be identified as a regulatory element in phenyl-propanoid metabolism. A regulatory influence of precursors could be excluded since nitrate starved wild type and NIA-transformant had similar levels. Genexpression analysis via microarry hybridisation and quantitative RT-PCR shows that nitrate acts a transcriptional regulator of genes involved in phenylpropanoid metabolism. The elucidation of this regulatory role of nitrate requires further investigation.
KW  - Nitrat
KW  - Aminosäuren
KW  - sekundäre Pflanzenstoffe
KW  - Stickstoff
KW  - Tabak
KW  - nitrate
KW  - amino acids
KW  - plant secondary metabolites
KW  - nitrogen
KW  - tobacco
Y1  - 2006
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-13322
ER  - 
TY  - JOUR
A1  - Klaus, Valentin H.
A1  - Hölzel, Norbert
A1  - Boch, Steffen
A1  - Müller, Jorg
A1  - Socher, Stephanie A.
A1  - Prati, Daniel
A1  - Fischer, Markus
A1  - Kleinebecker, Till
T1  - Direct and indirect associations between plant species richness and productivity in grasslands regional differences preclude simple generalization of productivity-biodiversity relationships
JF  - Preslia : the journal of the Czech Botanical Society
N2  - Plant species richness of permanent grasslands has often been found to be significantly associated with productivity. Concentrations of nutrients in biomass can give further insight into these productivity-plant species richness relationships, e.g. by reflecting land use or soil characteristics. However, the consistency of such relationships across different regions has rarely been taken into account, which might significantly compromise our potential for generalization. We recorded plant species richness and measured above-ground biomass and concentrations of nutrients in biomass in 295 grasslands in three regions in Germany that differ in soil and climatic conditions. Structural equation modelling revealed that nutrient concentrations were mostly indirectly associated with plant species richness via biomass production. However, negative associations between the concentrations of different nutrients and biomass and plant species richness differed considerably among regions. While in two regions, more than 40% of the variation in plant species richness could be attributed to variation in biomass, K, P. and to some degree also N concentrations, in the third region only 15% of the variation could be explained in this way. Generally, highest plant species richness was recorded in grasslands where N and P were co-limiting plant growth, in contrast to N or K (co-) limitation. But again, this pattern was not recorded in the third region. While for two regions land-use intensity and especially the application of fertilizers are suggested to be the main drivers causing the observed negative associations with productivity, in the third region the little variance accounted for, low species richness and weak relationships implied that former intensive grassland management, ongoing mineralization of peat and fluctuating water levels in fen grasslands have overruled effects of current land-use intensity and productivity. Finally, we conclude that regional replication is of major importance for studies seeking general insights into productivity-diversity relationships.
KW  - anthropogenic effect
KW  - Biodiversity Exploratories project
KW  - fen grasslands
KW  - generalizability
KW  - land-use history
KW  - nitrogen
KW  - phosphorus
KW  - potassium
KW  - plant species richness
KW  - structural equation modeling
Y1  - 2013
SN  - 0032-7786
VL  - 85
IS  - 2
SP  - 97
EP  - 112
PB  - Czech Botanical Soc.
CY  - Praha
ER  - 
TY  - GEN
A1  - Wilske, Burkhard
A1  - Eccard, Jana
A1  - Zistl-Schlingmann, Marcus
A1  - Hohmann, Maximilian
A1  - Methler, Annabel
A1  - Herde, Antje
A1  - Liesenjohann, Thilo
A1  - Dannenmann, Michael
A1  - Butterbach-Bahl, Klaus
A1  - Breuer, Lutz
T1  - Effects of short term bioturbation by common voles on biogeochemical soil variables
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Bioturbation contributes to soil formation and ecosystem functioning. With respect to the active transport of matter by voles, bioturbation may be considered as a very dynamic process among those shaping soil formation and biogeochemistry. The present study aimed at characterizing and quantifying the effects of bioturbation by voles on soil water relations and carbon and nitrogen stocks. Bioturbation effects were examined based on a field set up in a luvic arenosol comprising of eight 50 x 50 m enclosures with greatly different numbers of common vole (Microtus arvalis L., ca. 35-150 individuals ha(-1) mth(-1)). Eleven key soil variables were analyzed: bulk density, infiltration rate, saturated hydraulic conductivity, water holding capacity, contents of soil organic carbon (SOC) and total nitrogen (N), CO2 emission potential, C/N ratio, the stable isotopic signatures of C-13 and N-15, and pH. The highest vole densities were hypothesized to cause significant changes in some variables within 21 months. Results showed that land history had still a major influence, as eight key variables displayed an additional or sole influence of topography. However, the delta N-15 at depths of 10-20 and 20-30 cm decreased and increased with increasing vole numbers, respectively. Also the CO2 emission potential from soil collected at a depth of 15-30 cm decreased and the C/N ratio at 5-10 cm depth narrowed with increasing vole numbers. These variables indicated the first influence of voles on the respective mineralization processes in some soil layers. Tendencies of vole activity homogenizing SOC and N contents across layers were not significant. The results of the other seven key variables did not confirm significant effects of voles. Thus overall, we found mainly a first response of variables that are indicative for changes in biogeochemical dynamics but not yet of those representing changes in pools.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 499 
KW  - small mammalian herbivores
KW  - Microtus agrestis
KW  - pocket gophers
KW  - field voles
KW  - ecosystem services
KW  - functional traits
KW  - organic-carbon
KW  - nitrogen
KW  - population
KW  - landscape
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-408375
SN  - 1866-8372
IS  - 499
ER  - 
TY  - JOUR
A1  - Leuschner, Christoph
A1  - Wulf, Monika
A1  - Baeuchler, Patricia
A1  - Hertel, Dietrich
T1  - Forest continuity as a key determinant of soil carbon and nutrient storage in beech forests on sandy soils in Northern Germany
JF  - Ecosystems
N2  - Forest (or tree) age has been identified as an important determinant of the carbon (C) storage potential of forest soils. A large part of Central Europe's current forested area was affected by land use change with long periods of cultivation in past centuries suggesting that the organic C stocks in the soil (SOC) under recent forest may partly be legacies of the past and that stand age effects have to be distinguished from forest continuity effects (that is, the time since re-afforestation). We examined the influence of mean tree age and forest continuity on the SOC pool and the stores of total N and available P, Ca, Mg, and K in the soil (mineral soil and organic layer) across a sample of 14 beech (Fagus sylvatica) forests on sandy soil with variable tree age (23-189 years) and forest continuity (50-year-old afforestation to ancient ('permanent') forest, that is, > 230 years of proven continuity). Ancient beech forests (> 230 years of continuity) stored on average 47 and 44% more organic C and total N in the soil than recent beech afforestation (50-128 years of continuity). Contrary to expectation, we found large and significant C and N pool differences between the forest categories in the mineral soil but not in the organic layer indicating that decade- or century-long cultivation has reduced the subsoil C and nutrient stores while the organic layer element pools have approached a new equilibrium after only 50-128 years. PCA and correlation analyses suggest that forest continuity cannot be ignored when trying to understand the variation in soil C stocks between different stands. Forest clearing, subsequent cultivation, and eventual re-afforestation with beech resulted in similar relative stock reductions of C and N and, thus, no change in soil C/N ratio. We conclude that the continuity of forest cover, which may or may not be related to tree age, is a key determinant of the soil C and nutrient stores of beech forests in the old cultural landscape of Central Europe.
KW  - afforestation
KW  - ancient forests
KW  - available phosphorus
KW  - calcium
KW  - Fagus sylvatica
KW  - forest clear-cut
KW  - magnesium
KW  - nitrogen
KW  - potassium
KW  - sandy soil
Y1  - 2014
U6  - https://doi.org/10.1007/s10021-013-9738-0
SN  - 1432-9840
SN  - 1435-0629
VL  - 17
IS  - 3
SP  - 497
EP  - 511
PB  - Springer
CY  - New York
ER  - 
TY  - THES
A1  - Michalczyk, Anna
T1  - Modelling of nitrogen cycles in intensive winter wheat–summer maize double cropping systems in the North China Plain
T1  - Modellierung von Stickstoffkreisläufen in intensiven Winterweizen–Sommermais-Doppelfruchtfolgen in der Nordchinesischen Tiefebene
BT  - site specific optimisation of nitrogen fertilisation with regard to nitrogen losses, water protection, productivity and regionalisation
N2  - The North China Plain (NCP) is one of the most productive and intensive agricultural regions in China. High doses of mineral nitrogen (N) fertiliser, often combined with flood irrigation, are applied, resulting in N surplus, groundwater depletion and environmental pollution. The objectives of this thesis were to use the HERMES model to simulate the N cycle in winter wheat (Triticum aestivum L.)–summer maize (Zea mays L.) double crop rotations and show the performance of the HERMES model, of the new ammonia volatilisation sub-module and of the new nitrification inhibition tool in the NCP. Further objectives were to assess the models potential to save N and water on plot and county scale, as well as on short and long-term. Additionally, improved management strategies with the help of a model-based nitrogen fertiliser recommendation (NFR) and adapted irrigation, should be found.
Results showed that the HERMES model performed well under growing conditions of the NCP and was able to describe the relevant processes related to soil–plant interactions concerning N and water during a 2.5 year field experiment. No differences in grain yield between the real-time model-based NFR and the other treatments of the experiments on plot scale in Quzhou County could be found. Simulations with increasing amounts of irrigation resulted in significantly higher N leaching, higher N requirements of the NFR and reduced yields. Thus, conventional flood irrigation as currently practised by the farmers bears great uncertainties and exact irrigation amounts should be known for future simulation studies. In the best-practice scenario simulation on plot-scale, N input and N leaching, but also  irrigation water could be reduced strongly within 2 years. Thus, the model-based NFR in combination with adapted irrigation had the highest potential to reduce nitrate leaching, compared to farmers practice and mineral N (Nmin)-reduced treatments. Also the calibrated and validated ammonia volatilisation sub-module of the HERMES model worked well under the climatic and soil conditions of northern China. Simple ammonia volatilisation approaches gave also satisfying results compared to process-oriented approaches. During the simulation with Ammonium sulphate Nitrate with nitrification inhibitor (ASNDMPP) ammonia volatilisation was higher than in the simulation without nitrification inhibitor, while the result for nitrate leaching was the opposite. Although nitrification worked well in the model, nitrification-born nitrous oxide emissions should be considered in future. Results of the simulated annual long-term (31 years) N losses in whole Quzhou County in Hebei Province were 296.8 kg N ha−1 under common farmers practice treatment and 101.7 kg N ha−1 under optimised treatment including NFR and automated irrigation (OPTai). Spatial differences in simulated N losses throughout Quzhou County, could only be found due to different N inputs. Simulations of an optimised treatment, could save on average more than 260 kg N ha−1a−1 from fertiliser input and 190 kg N ha−1a−1 from N losses and around 115.7 mm a−1 of water, compared to farmers practice. These long-term simulation results showed lower N and water saving potential, compared to short-term simulations and underline the necessity of long-term simulations to overcome the effect of high initial N stocks in soil.
Additionally, the OPTai worked best on clay loam soil except for a high simulated denitrification loss, while the simulations using farmers practice irrigation could not match the actual water needs resulting in yield decline, especially for winter wheat. Thus, a precise adaption of management to actual weather conditions and plant growth needs is necessary for future simulations. However, the optimised treatments did not seem to be able to maintain the soil organic matter pools, even with full crop residue input. Extra organic inputs seem to be required to maintain soil quality in the optimised treatments.
HERMES is a relatively simple model, with regard to data input requirements, to simulate the N cycle. It can offer interpretation of management options on plot, on county and regional scale for extension and research staff. Also in combination with other N and water saving methods the model promises to be a useful tool.
N2  - Die Nordchinesische Tiefebene (NCP) ist eine der produktivsten und intensivsten Agrarregionen Chinas. Große Düngermengen an mineralischem Stickstoff (N) und der oft in Kombination genutzten Überflutungsbewässerung führen zu Stickstoffüberflüssen, Grundwasserabsenkung und Umweltverschmutzung. Ziel dieser Arbeit war die Simulation des N-Kreislaufes in Winterweizen (Triticum aestivum L.)–Sommermais (Zea mays L.) -Doppelfruchtfolgen mit dem HERMES Modell. Weitere Ziele waren ein Test der Modellgüte, sowie das Potential des Modells aufzuzeigen, N und Wasser mit Hilfe einer modellbasierten N-Düngeempfehlung (NFR) und angepassten Bewässerungsstrategien einzusparen. Dies erfolgte auf Schlag- und Countyebene wie auch in Kurzzeit- und in Langzeitsimulationen, um verbesserte Managementstrategien für Quzhou-County in der Hebei-Provinz zu finden.
Die Ergebnisse zeigten, dass das HERMES Modell gut unter den Wachstumsbedingungen der NCP funktioniert und alle relevanten Boden-Pflanze-Interaktionen während der Versuchszeit von 2,5 Jahren in Bezug auf N und Wasser beschreiben konnte. Es konnten keine Ertragsunterschiede zwischen Echtzeit modellbasierter NFR und anderen Behandlungen auf Schlagebene in Quzhou-County festgestellt werden. Simulationen mit steigenden Bewässerungsgaben ergaben signifikant höheren N-Austrag, höheren N-Bedarf der NFR und reduzierte Erträge. Daher birgt die konventionelle Überflutungsbewässerung, wie sie derzeit von den Landwirten praktiziert wird, große Unsicherheiten und genaue Bewässerungsmengen sollten für zukünftige Simulationsstudien bekannt sein. In der optimierten („best-practice“) Szenariosimulation auf Schlagebene konnte insbesondere die N-Düngung und der N-Austrag, aber auch die Bewässerung innerhalb 2 Jahre stark gesenkt werden. Daher hat die modellbasierte NFR in Kombination mit angepasster Bewässerung, im Gegensatz zu konventioneller und mineralischen N (Nmin)-reduzierter Behandlung, das höchste Potential Nitratauswaschung zu reduzieren. Auch das kalibrierte und validierte Ammoniak-Verflüchtigungs-modul des HERMES Modells funktionierte gut unter den Klima- und Bodenverhältnissen in Nordchina. Die zwei einfacheren Ammoniak-Verflüchtigungsansätze erreichten auch gute Ergebnisse, während die zwei prozessorientierten Ansätze Umwelteinflüsse besser darstellen konnten. In der Simulation mit der Ammonsulfatsalpeter-Düngung mit Nitrifikationsinhibitor (ASNDMPP) war die Ammoniakverflüchtigung höher als in der Simulation ohne Nitrifikationshemmer, während das Ergebnis für Nitratauswaschung umgekehrt war. Obwohl der Nitrifikationsansatz gut funktionierte, sollten von der Nitrifikation stammende Lachgasemissionen in Zukunft im Modell berücksichtigt werden. Im Jahresdurchschnitt lagen die simulierten Langzeit (31 Jahre) N-Verluste für eine Weizen-Mais-Doppelfruchtfolge im ganzen Quzhou-County bei 296,8 kg N ha−1  unter konventioneller Düngung und bei 101,7 kg N ha−1 unter optimierter Düngung inklusive NFR and automatischer Bewässerung (OPTai). Räumliche Unterschiede von simulierten N-Verlusten in Quzhou-County konnten nur aufgrund von unterschiedlichen N-Düngemengen gefunden werden. Simulationen einer optimierten Behandlung konnten im Durchschnitt mehr als 260 kg N ha−1a−1 an N-Düngung und 190 kg N ha−1a−1 an N-Verlusten und 115,7 mm a−1 an Wasser, im Vergleich zur konventionellen Behandlung, einsparen. Im Vergleich zu den Kurzzeitsimulationen ist es ein niedrigeres N- und Wasserreduktionspotential und unterstreicht die Notwendigkeit von Langzeitsimulationen um den Effekt von hohen Anfangs Nmin-Gehalten im Boden zu berücksichtigen. Zudem kommt, dass auf tonigem Lehm Simulationen mit konventioneller Bewässerung nicht den aktuellen Wasserbedarf decken konnten, welches zu Ertragseinbußen insbesondere für Winterweizen führte. Die OPTai Behandlung funktionierte bis auf hohe simulierte Denitrifikationsverluste auf diesem Standort am besten. Daher ist dort für zukünftige Simulationen ein an aktuelle Wetterverhältnisse und Pflanzenwachstumsbedürfnisse angepasstes Management von N und Wasser nötig. Trotzdem schienen die optimierten Behandlungen, trotz voller Strohrückgabe, die organische Bodensubstanz nicht zu erhalten. Zur Sicherung der Bodenfruchtbarkeit in den optimierten Behandlungen scheinen zusätzliche organische Düngergaben wahrscheinlich notwendig zu sein. 
HERMES ist ein relativ einfaches Modell, im Hinblick auf die Anforderungen an die Eingangsdaten, um den Stickstoffkreislauf zu simulieren. Es ermöglicht, Managementoptionen für Berater und Wissenschaftler auf Schlag-, County- und Regionalebene anzuwenden. Auch in Kombination mit anderen N- und Wasser-Einsparmethoden verspricht das Modell ein nützliches Instrument zu sein.
KW  - nitrogen
KW  - Stickstoff
KW  - simulation
KW  - Simulation
KW  - China
KW  - China
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-444213
ER  - 
TY  - JOUR
A1  - Lachmann, Sabrina C.
A1  - Mettler-Altmann, Tabea
A1  - Wacker, Alexander
A1  - Spijkerman, Elly
T1  - Nitrate or ammonium
BT  - Influences of nitrogen source on the physiology of a green alga
JF  - Ecology and evolution
N2  - In freshwaters, algal species are exposed to different inorganic nitrogen (Ni) sources whose incorporation varies in biochemical energy demand. We hypothesized that due to the lesser energy requirement of ammonium (NH4+)-use, in contrast to nitrate (NO3-)-use, more energy remains for other metabolic processes, especially under CO2-and phosphorus (Pi) limiting conditions. Therefore, we tested differences in cell characteristics of the green alga Chlamydomonas acidophila grown on NH4+ or NO3- under covariation of CO2 and Pi-supply in order to determine limitations, in a full-factorial design. As expected, results revealed higher carbon fixation rates for NH4+ grown cells compared to growth with NO3- under low CO2 conditions. NO3- -grown cells accumulated more of the nine analyzed amino acids, especially under Pi-limited conditions, compared to cells provided with NH4+. This is probably due to a slower protein synthesis in cells provided with NO3-. In contrast to our expectations, compared to NH4+ -grown cells NO3- -grown cells had higher photosynthetic efficiency under Pi-limitation. In conclusion, growth on the Ni-source NH4+ did not result in a clearly enhanced Ci-assimilation, as it was highly dependent on Pi and CO2 conditions (replete or limited). Results are potentially connected to the fact that C. acidophila is able to use only CO2 as its inorganic carbon (Ci) source.
KW  - amino acids
KW  - carbon uptake kinetics
KW  - CO2 conditions
KW  - nitrogen
KW  - phosphorus limitation
Y1  - 2019
U6  - https://doi.org/10.1002/ece3.4790
SN  - 2045-7758
VL  - 9
IS  - 3
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Kumar, Rohini
A1  - Hesse, Fabienne
A1  - Rao, P. Srinivasa
A1  - Musolff, Andreas
A1  - Jawitz, James
A1  - Sarrazin, Francois
A1  - Samaniego, Luis
A1  - Fleckenstein, Jan H.
A1  - Rakovec, Oldrich
A1  - Thober, S.
A1  - Attinger, Sabine
T1  - Strong hydroclimatic controls on vulnerability to subsurface nitrate contamination across Europe
JF  - Nature Communications
N2  - Subsurface contamination due to excessive nutrient surpluses is a persistent and widespread problem in agricultural areas across Europe. The vulnerability of a particular location to pollution from reactive solutes, such as nitrate, is determined by the interplay between hydrologic transport and biogeochemical transformations. Current studies on the controls of subsurface vulnerability do not consider the transient behaviour of transport dynamics in the root zone. Here, using state-of-the-art hydrologic simulations driven by observed hydroclimatic forcing, we demonstrate the strong spatiotemporal heterogeneity of hydrologic transport dynamics and reveal that these dynamics are primarily controlled by the hydroclimatic gradient of the aridity index across Europe. Contrasting the space-time dynamics of transport times with reactive timescales of denitrification in soil indicate that similar to 75% of the cultivated areas across Europe are potentially vulnerable to nitrate leaching for at least onethird of the year. We find that neglecting the transient nature of transport and reaction timescale results in a great underestimation of the extent of vulnerable regions by almost 50%. Therefore, future vulnerability and risk assessment studies must account for the transient behaviour of transport and biogeochemical transformation processes.
KW  - travel time distributions
KW  - groundwater vulnerability
KW  - flux tracking
KW  - transit-time
KW  - water age
KW  - nitrogen
KW  - model
KW  - dynamics
KW  - pollution
KW  - patterns
Y1  - 2020
U6  - https://doi.org/10.1038/s41467-020-19955-8
SN  - 2041-1723
VL  - 11
IS  - 1
SP  - 1
EP  - 10
PB  - Nature Publishing Group UK
CY  - London
ER  - 
TY  - GEN
A1  - Kumar, Rohini
A1  - Hesse, Fabienne
A1  - Rao, P. Srinivasa
A1  - Musolff, Andreas
A1  - Jawitz, James
A1  - Sarrazin, Francois
A1  - Samaniego, Luis
A1  - Fleckenstein, Jan H.
A1  - Rakovec, Oldrich
A1  - Thober, S.
A1  - Attinger, Sabine
T1  - Strong hydroclimatic controls on vulnerability to subsurface nitrate contamination across Europe
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Subsurface contamination due to excessive nutrient surpluses is a persistent and widespread problem in agricultural areas across Europe. The vulnerability of a particular location to pollution from reactive solutes, such as nitrate, is determined by the interplay between hydrologic transport and biogeochemical transformations. Current studies on the controls of subsurface vulnerability do not consider the transient behaviour of transport dynamics in the root zone. Here, using state-of-the-art hydrologic simulations driven by observed hydroclimatic forcing, we demonstrate the strong spatiotemporal heterogeneity of hydrologic transport dynamics and reveal that these dynamics are primarily controlled by the hydroclimatic gradient of the aridity index across Europe. Contrasting the space-time dynamics of transport times with reactive timescales of denitrification in soil indicate that similar to 75% of the cultivated areas across Europe are potentially vulnerable to nitrate leaching for at least onethird of the year. We find that neglecting the transient nature of transport and reaction timescale results in a great underestimation of the extent of vulnerable regions by almost 50%. Therefore, future vulnerability and risk assessment studies must account for the transient behaviour of transport and biogeochemical transformation processes.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1352 
KW  - travel time distributions
KW  - groundwater vulnerability
KW  - flux tracking
KW  - transit-time
KW  - water age
KW  - nitrogen
KW  - model
KW  - dynamics
KW  - pollution
KW  - patterns
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-549875
SN  - 1866-8372
IS  - 1
ER  - 
TY  - JOUR
A1  - Eckert, Sebastian
A1  - Norell, Jesper
A1  - Jay, Raphael Martin
A1  - Fondell, Mattis
A1  - Mitzner, Rolf
A1  - Odelius, Michael
A1  - Föhlisch, Alexander
T1  - T-1 Population as the Driver of Excited-State Proton-Transfer in 2-Thiopyridone
JF  - Chemistry - a European journal
N2  - Excited-state proton transfer (ESPT) is a fundamental process in biomolecular photochemistry, but its underlying mediators often evade direct observation. We identify a distinct pathway for ESPT in aqueous 2-thiopyridone, by employing transient N1s X-ray absorption spectroscopy and multi-configurational spectrum simulations. Photoexcitations to the singlet S-2 and S-4 states both relax promptly through intersystem crossing to the triplet T-1 state. The T-1 state, through its rapid population and near nanosecond lifetime, mediates nitrogen site deprotonation by ESPT in a secondary intersystem crossing to the S-0 potential energy surface. This conclusively establishes a dominant ESPT pathway for the system in aqueous solution, which is also compatible with previous measurements in acetonitrile. Thereby, the hitherto open questions of the pathway for ESPT in the compound, including its possible dependence on excitation wavelength and choice of solvent, are resolved.
KW  - excited-state proton-transfer
KW  - intersystem crossing
KW  - nitrogen
KW  - photochemistry
KW  - X-ray absorption
Y1  - 2019
U6  - https://doi.org/10.1002/chem.201804166
SN  - 0947-6539
SN  - 1521-3765
VL  - 25
IS  - 7
SP  - 1733
EP  - 1739
PB  - Wiley-VCH
CY  - Weinheim
ER  -