Journal Article (297)
281.
Journal Article
16 (4), p. 1123 (2002)
Carbon isotope geochemistry and nanomorphology of soil black carbon: Black chernozemic soils in central Europe originate from ancient biomass burning. Global Biogeochemical Cycles 282.
Journal Article
221, pp. 27 - GEOC (2001)
Molecular turnover rates of soil organic matter. Abstracts of Papers of the American Chemical Society 283.
Journal Article
40 (11), pp. 2091 - 2093 (2001)
Classification of terpenoids according to the methylerythritolphosphate or the mevalonate pathway with natural 12C/13C isotope ratios: Dynamic allocation of resources in induced plants. Angewandte Chemie International Edition 284.
Journal Article
4, pp. 57 - 59 (2001)
Compound-specific stable hydrogen isotope ratios of lipids from different paleoenvironments and paleoclimates. Terra Nostra 285.
Journal Article
15 (1), pp. 163 - 167 (2001)
Comparative analysis of black carbon in soils. Global Biogeochemical Cycles 286.
Journal Article
32 (2), pp. 241 - 252 (2000)
Nature of organic nitrogen in fine particle size separates of sandy soils of highly industrialized areas as revealed by NMR spectroscopy. Soil Biology and Biochemistry 287.
Journal Article
31 (7-8), pp. 645 - 654 (2000)
Isotope analysis of pyrolysis products from Sphagnum peat and dissolved organic matter from bog water. Organic Geochemistry 288.
Journal Article
40 (3), pp. 233 - 258 (2000)
Microhabitat preferences and stable carbon isotopes of endobenthic Foraminifera: clue to quantitative reconstruction of oceanic new production? Marine Micropaleontology 289.
Journal Article
36 (3), pp. 285 - 301 (2000)
Do stable isotopes reflect the food web development in regenerating ecosystems? Isotopes in Environmental and Health Studies 290.
Journal Article
5 (1), pp. 35 - 53 (2000)
Die Beeinflussung von Sukzessionsprozesses auf Schieferhalden des Uranbergbaus durch mikroklimatische und edaphische Faktoren - 1. Untersuchungsansatz, Datenanalyse und erste Ergebnisse. Successional processes on slate dumps of uranium mining in relation to microclimatic and edaphic factors - 1. Sampling, data analysis and first results. Beiträge zur Ökologie 291.
Journal Article
14 (3), pp. 777 - 793 (2000)
Black carbon in soils and sediments: Analysis, distribution, implications, and current challenges. Global Biogeochemical Cycles 292.
Journal Article
27 (4), pp. 200 - 207 (1999)
Formation of humic-like substances in mixed and pure cultures of aquatic microorganisms. Acta Hydrochimica et Hydrobiologica 293.
Journal Article
13 (13), pp. 1278 - 1283 (1999)
Molecular insight into soil carbon turnover. Rapid Communications in Mass Spectrometry 294.
Journal Article
217, p. 033 - 033 (1999)
Selectively preserved compounds in the humification of Sphagnum. Abstracts of Papers of the American Chemical Society 295.
Journal Article
217, pp. 053 - GEOC (1999)
Stabilization of soil organic matter in organo-mineral complexes studied in particle size fractions. Abstracts of Papers of the American Chemical Society 296.
Journal Article
33 (11), pp. 2489 - 2498 (1999)
Analytical pyrolysis of humic substances and dissolved organic matter in aquatic systems: structure and origin. Water Research 297.
Journal Article
207 (2), pp. 241 - 245 (1998)
Stable isotope distribution in the major metabolites of source and sink organs of Solanum tuberosum L.: a powerful tool in the study of metabolic partitioning in intact plants. Planta Book (1)
298.
Book
Die Geologie der Baugesteine Thüringens: der Steinfußboden am MPI für Biogeochemie Jena. Weissdorn, Jena (2006)
Book Chapter (13)
299.
Book Chapter
61, pp. 221 - 264 (Eds. Eisenhauer, N.; Bohan, D. A.; Dumbrell, A. J.). Academic Press, London et al. (2019)
A new experimental approach to test why biodiversity effects strengthen as ecosystems age. In: Mechanisms underlying the relationship between biodiversity and ecosystem function, Vol. 300.
Book Chapter
61, pp. 185 - 219 (Eds. Eisenhauer, N.; Bohan, D. A.). Academic Press, London et al. (2019)
How plant diversity impacts the coupled water, nutrient and carbon cycles. In: Mechanisms underlying the relationship between biodiversity and ecosystem function, Vol.