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==Literatur== | ==Literatur== | ||
'''Boden und Erosion''' | '''Boden und Erosion''' | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_earscirev_2009_02_003%22+IN+%5B5%5D&v=sunrise&l=de| Verheijen, F., Jones, R., Rickson, R., Smith, C. Smith (2009): Tolerable versus actual soil erosion rates in Europe. Accepted Manuscript. Earth-Science Reviews, 94, 23-38.] | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_earscirev_2009_02_003%22+IN+%5B5%5D&v=sunrise&l=de| Verheijen, F., Jones, R., Rickson, R., Smith, C. Smith (2009): Tolerable versus actual soil erosion rates in Europe. Accepted Manuscript. Earth-Science Reviews, 94, 23-38.] | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_ancene_2017_01_002%22+IN+%5B5%5D&v=sunrise&l=de| Vanwalleghem T., Gómez, J., Infante Amate, J., González de Molina, M., Vanderlinden, K., Guzmán, G., Laguna, A., Giráldez, J. (2017): Impact of historical land use and soil management change on soil erosion and agricultural sustainability during the Anthropocene. Anthropocene, 17, 13-29.] | |||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_geomorph_2015_03_008%22+IN+%5B5%5D&v=sunrise&l=de| García-Ruiz, J., Beguería, S., Nadal-Romero, E., González-Hidalgo, J., LanaRenault, N., Sanjuán, Y. (2015): A meta-analysis of soil erosion rates across the world. Geomorphology, 239, 160-173.] | |||
* | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_jhydrol_2010_06_034%22+IN+%5B5%5D&v=sunrise&l=de| Leys, A., Govers, Gillijns, K., Berckmoes, E., Takken, I. (2010): Scale effects on runoff and erosion losses from arable land under conservation and conventional tillage: The role of residue cover. Journal of Hydrology, 390, 143-154.] | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_catena_2016_07_004%22+IN+%5B5%5D&v=sunrise&l=de| Van Pelt, S., Hushmurodov, S., Baumhardt, L., Chappell, A., Nearing, M., Polyakov, V., Strack, J.(2017): The reduction of partitioned wind and water erosion by conservation agriculture. Catena, 148, 160-167.] | |||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_scitotenv_2018_07_124%22+IN+%5B5%5D&v=sunrise&l=de| Xiong, M., Suna, R., Chena, L. (2018): Effects of soil conservation techniques on water erosion control: A global analysis. Science of the Total Environment, 645, 753-760.] | |||
*García-Ruiz, J., Beguería, S., Nadal-Romero, E., González-Hidalgo, J., LanaRenault, N., Sanjuán, Y. (2015): A meta-analysis of soil erosion rates across the world. Geomorphology, 239, 160-173. | |||
*Leys, A., Govers, Gillijns, K., Berckmoes, E., Takken, I. (2010): Scale effects on runoff and erosion losses from arable land under conservation and conventional tillage: The role of residue cover. Journal of Hydrology, 390, 143-154. | |||
*Van Pelt, S., Hushmurodov, S., Baumhardt, L., Chappell, A., Nearing, M., Polyakov, V., Strack, J.(2017): The reduction of partitioned wind and water erosion by conservation agriculture. Catena, 148, 160-167. | |||
*Xiong, M., Suna, R., Chena, L. (2018): Effects of soil conservation techniques on water erosion control: A global analysis. Science of the Total Environment, 645, 753-760. | |||
'''Conservation Agriculture''' | '''Conservation Agriculture''' | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22springer_s978-3-319-11620-4_318505%22+IN+%5B5%5D&v=sunrise&l=de| Farooq, M., Siddique, K. (2015): Conservation Agriculture: Concepts, Brief History, and Impacts on Agricultural Systems. In: Farooq, M., Siddique, K. (2015): Conservation Agriculture. Springer. 2 - 17.] | |||
*Farooq, M., Siddique, K. (2015): Conservation Agriculture: Concepts, Brief History, and Impacts on Agricultural Systems. In: Farooq, M., Siddique, K. (2015): Conservation Agriculture. Springer. 2 - 17. | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_still_2006_11_004%22+IN+%5B5%5D&v=sunrise&l=de| Lal, R., Reicosky, D., Hanson, J. (2007): Evolution of the plow over 10,000 years and the rationale for no-till farming. Soil & Tillage Research, 93, 1-12.] | ||
*Lal, R., Reicosky, D., Hanson, J. (2007): Evolution of the plow over 10,000 years and the rationale for no-till farming. Soil & Tillage Research, 93, 1-12. | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22doaj_soai_doaj_org_article_62126bbcf4b7432fb638415c71f9703b%22+IN+%5B5%5D&v=sunrise&l=de| Dumanski, J., Peiretti, R. (2013): Modern concepts of soil conservation. International Soil and Water Conservation Research, 1, 19-23.] | ||
* | |||
'''Unkrautmanagement in Direktsaatsystemen''' | '''Unkrautmanagement in Direktsaatsystemen''' | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_scitotenv_2017_10_309%22+IN+%5B5%5D&v=sunrise&l=de| Van Bruggen, A., Shin, K., Mai, V., Jeong, K., Finckh, M., Morris, J. (2018): Environmental and health effects of the herbicide glyphosate. Science of the Total Environment, 616, 255-268.] | |||
*Van Bruggen, A., Shin, K., Mai, V., Jeong, K., Finckh, M., Morris, J. (2018): Environmental and health effects of the herbicide glyphosate. Science of the Total Environment, 616, 255-268. | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22elsevier_sdoi_10_1016_j_cropro_2015_03_004%22+IN+%5B5%5D&v=sunrise&l=de| Jabran, K., Mahajan, G., Sardana, V., Chauhan, B. (2015): Allelopathy for weed control in agricultural systems. Crop Protection, 72, 57-65.] | ||
*Jabran, K., Mahajan, G., Sardana, V., Chauhan, B. (2015): Allelopathy for weed control in agricultural systems. Crop Protection, 72, 57-65. | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22springer_jour10.1007%2Fs13593-015-0292-3%22+IN+%5B5%5D&v=sunrise&l=de| Anderson, R. (2015): Integrating a complex rotation with no-till improves weed management in organic farming. A review. Agronomy for Sustainable Development, 35, 967-974.] | ||
*Anderson, R. (2015): Integrating a complex rotation with no-till improves weed management in organic farming. A review. Agronomy for Sustainable Development, 35, 967-974. | *[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22cambridgeS1742170514000167%22+IN+%5B5%5D&v=sunrise&l=de| Anderson, R. (2014): A cultural system to reduce weed interference in organic soybean. Renewable Agriculture and Food Systems, 30, 392-398.] | ||
*Anderson, R. (2014): A cultural system to reduce weed interference in organic soybean. Renewable Agriculture and Food Systems, 30, 392-398. | |||
'''Praktische Anwendung von Direktsaat unter ökologischer Landwirtschaft in Europa''' | '''Praktische Anwendung von Direktsaat unter ökologischer Landwirtschaft in Europa''' | ||
*[https://opac.ub.uni-muenchen.de/TouchPoint/perma.do?q=0%3D%22cambridgeS1742170514000477%22+IN+%5B5%5D&v=sunrise&l=de| Peigné, J., Casagrande, M., Payet, V., David, C., Sans, X., Blanco-Moreno, J., Cooper, J., Gascoyne, K., Antichi, D., Bàrberi, P., Bigongiali, F., Surböck, A., Kranzler, A., Beeckman, A., Willekens, K., Luik, A., Matt, D., Grosse, M., Heß, J., Clerc, M., Dierauer, H., Mäder, P. (2015): How organic farmers practice conservation agriculture in Europe. Renewable Agriculture and Food Systems, 31, 72-85.] | |||
==Einzelnachweise== | ==Einzelnachweise== |