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- Abel-Santos, E. (2012): Bacterial spores

- Agde, G. (2013): Spielplätze und Freiräume zum Spielen

- Albert, Ch. et al. (Hg.) (2022): Landschaftsplanung

- Amedzro St-Hilaire, W. (2018): The multi-level perspectives of agribusiness

- Asiegbu, F. (2021): Forest Microbiology : Volume 1: Tree Microbiome: Phyllosphere, Endosphere and Rhizosphere

- Asiegbu, F. (2022): Forest Microbiology : Volume 2: Forest Tree Health

- Asiegbu, F. (2022): Forest Microbiology : Volume 3: Tree Diseases and Pests

- Baker-Brown, D. (2017): The re-use atlas: A designer's guide towards a circular economy

- Baum, C.F. (2021): Environmental econometrics using Stata

- Bishop, K. et al. (2020): The Routledge handbook of people and place in the 21st-century city 

- Bochtis, D.D. et al. (2022): Information and communication technologies for agriculture - Theme II: Data

- Bochtis, D.D. et al. (2022): Information and communication technologies for agriculture - Theme IV: Actions

- Bornemann, B. (2022): The Routledge handbook of democracy and sustainability

- Brisson, N. (2008): Conceptual basis, formalisations and parameterization of the STICS crop model 

- Bruns, D. et al. (2022): The Routledge handbook of landscape architecture education

- Büscher M. et al. (2020): Handbook of research methods and applications for mobilities

- Cech, T. et al. (2022): Baumpilze

- Cole, Ch. (2020): Genomic designing of climate-smart fruit crops

- Costa, J.M. et al. (2022): Improving sustainable viticulture and winemaking practices

- Dabbert, S. et al. (2021): Landwirtschaftliche Betriebslehre

- Douglas, I. et al. (2021): The Routledge handbook of urban ecology

- Doyle, M.P. et al. (2019): Food microbiology

- Dunn, J. et al. (2021): Data science applied to sustainability analysis

- Duteurtre, B. (2016): Le Champagne

- Edler, D. (2022): The social construction of landscapes in games

- Eisenriegler, S. (2020): Kreislaufwirtschaft in der EU

- Esselborn-Krumbiegel, H. (2021): Richtig wissenschaftlich schreiben

- Ferrini, F. et al. (Hg.) (2017): Routledge handbook of urban forestry

- Field, H. et al. (2018): Introduction to agricultural engineering technology

- Foken, T. (2021): Springer Handbook of atmospheric measurements

- Franck, N. (2022): Handbuch wissenschaftliches Schreiben

- Gandhi, K. (2021): Bark beetle management, ecology, and climate change

- Gerick, J. et al. (2022): Kompetent Prüfungen gestalten

- Gorjian, S. (2022): Solar energy advancements in agriculture and food production systems

- Greasley, A. (2019): Simulating business processes for descriptive, predictive, and prescriptive analytics

- Habel, J.C. (2010): Relict species: Phylogeography and conservation biology

- Heineberg, H. et al. (2022): Stadtgeographie

- Heitman, J. (2018): The fungal kingdom

- Hennig, A. (2022): Marketing Schritt für Schritt: Arbeitsbuch

- Hurbans, R. (2020): Grokking artificial intelligence algorithms

- James, H.S. (2021): Handbook on the human impact of agriculture

- Jankowicz, D. (2004): The easy guide to repertory grids

- Jarvis, H. et al. (2009): Cities and gender

- Kallhoff, A. (2021): Climate justice and collective action

- Kavanagh, K. (2018): Fungi

- Kotler, P. et al. (2017): Marketing-Management

- Krishna, P. V. (2021): Handbook of research on advances in data analytics and complex communication networks

- Lambers, H. et al. (2019): Plant physiological ecology

- Lee, S.Y. et al. (2021): Metabolic engineering

- Long, J.S. (2009): The workflow of data analysis using Stata

- Machi, L.A. et al. (2016): The literature review

- Mankiw, N.G. et al. (2021): Grundzüge der Volkswirtschaftslehre

- Mengel, K. et al. (2001): Principles of plant nutrition

- Mir, M.M. et al. (2021): Production technology of stone fruits

- Mondal, S. et al. (Hrsg.) (2022): Emerging issues in climate smart livestock production

- Morales, M. (2020): Grokking deep reinforcement learning

- Morata, A. (Hg.) (2021): White wine technology

- Morlini, I. et al. (2015): Advances in statistical models for data analysis

- Mukherjee, S. (2022): Rhizobiology: Molecular physiology of plant roots

- Nandabalan, Y.K. (2022): Zero waste biorefinery

- Noroozi, J. (2020): Plant biogeography and vegetation of high mountains of central and south-west asia

- Pearcy, R. (2000): Plant physiological ecology

- Räthzel, N. (2021): The Palgrave handbook of environmental labour studies

- Ray, S. et al. (2022): Handbook of production economics

- Rees, A.R. (2022): A new history of vaccines for infectious diseases

- Russo, M. et al. (2020): Das ultimative DAX-Handbuch: Business Intelligence mit Microsoft Power BI, SQL Server Analysis Services und Excel

- Samojlik, T. (2020): Białowieża Primeval Forest: Nature and Culture in the Nineteenth Century

- Serrano, L. (2021): Grokking machine learning

- Thakur, S. et al. (2018): Preharvest food safety

- Trask, A.W. (2019): Grokking deep learning

- Trautner, J. (2021): Artenschutz

- Uekötter, F. (2020): Im Strudel: Eine Umweltgeschichte der modernen Welt

- Voss, R. (2022): Wissenschaftliches Arbeiten ... leicht verständlich!

- Wästerlund, I. (2020): Soil and root damage in forestry 

- Wermelinger, B. (2021): Forest insects in Europe

- Werner, M. et al. (2021): Handbook of big geospatial data

- Williams, P. et al. (2019): Near infrared technology

- Wohlgemuth, T. et al. (2022): Disturbance ecology

- Xenarios, S. et al. (2019): The Aral Sea basin

- Zerbe, S. (2022): Restoration of multifunctional cultural landscapes