Literaturverzeichnis: Wie Pestizide und Dünger das biologische Gleichgewicht stören


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Artursson V, Finlay RD, Jansson JK:  Interactions between arbuscular mycorrhizal fungi and bacteria and their potential for stimulating plant growth. Environmental Microbiology, 8(1), 1–10 (2006)

Behrendt U, Stauber T, Müller T: Microbial communities in the phyllosphere of grasses on fenland at different intensities of management. Grass & Forage Sci. 59, 169-179 (2004)

Cadez N, Zupan J, Raspor P: The effect of fungicides on yeast communities associated with grape berries. FEMS Yeast Res. 2010 Aug 1, 10(5), pp. 619-30 (2010)

Comitini F, Ciani M: Influence of fungicide treatments on the occurrence of yeast flora associated with wine grapes. Annals of Microbiology. 9/2008, Springer Berlin / Heidelberg, Life Sciences, p.489-493 Vol. 58 (2008)

Delmotte N, Knief C et al. Community proteogenomics reveals insights into the physiology of phyllosphere bacteria. Proceedings of the National Academy of Sciences 38, 2009, S. 16428–16433 (2009)

Elad Y: Mechanisms involved in the biological control of Botrytis cinerea incited diseases. Europ. Journal of Plant Pathology, 102, 719-732 (1996)

Engelen B, Meinken K, Von Wintzingerode F  et al: Monitoring Impact of a Pesticide Treatment on Bacterial Soil Communities by Metabolic and Genetic Fingerprinting in Addition to Conventional Testing Procedures. Applied and Environmental Microbiology, Aug. 1998, p. 2814–2821 (1998)

Fox JE, Gulledge J, Engelhaupt E: Pesticides reduce symbiotic efficiency of nitrogen-fixing rhizobia and host plants. PNAS, 10282–10287, vol. 104, no. 24 (2007)

Gubler WD, Baumgartner K, Browne G T et al.: Root diseases of grapevines in California and their control. Australasian Plant Pathology, 33, 157–165 (2004)

Hoffmann H: Untersuchungen zur Biozidauswirkung auf Bodenbakterien mit Hilfe von mikrobiologischen und molekularbiologischen Methoden. BAM-Dissertationsreihe. 3.Band. Berlin (2004)

Levitan L: An Overview of PESTICIDE IMPACT ASSESSMENT SYSTEMS (a.k.a. “Pesticide Risk Indicators”) based on Indexing or Ranking Pesticides by Environmental Impact. Background Paper Prepared for the Organisation of Economic Cooperation and Development (OECD) Workshop on Pesticide Risk Indicators 21-23 April, 1997 Copenhagen, Denmark (revised May 19, 1997) (1997)

Lopresti J: Managing pesticide resistance in the vineyard. CRC for Viticulture, Pesticide application fact sheet 4, Version 1, June 2004 (2004)

Niggli C: Bodenleben – Biodiversität als landwirtschaftliche Methode (Teil 3). Journal für Terroirwein und Biodiversität, ISSN 1663-0521 (2010)

Pozo MI, Herrera CM, and Bazaga P: Species richness of yeast communities in floral nectar of southern Spanish plants. Microbial Ecology 61, 82-91. (2011)

Rumbou A, Gobbin D: First approach of Plasmopara viticola population biology: merging epidemiology and population genetics. Rudolf Hermanns foundation award in viticultural and horticultural sciences. Geisenheim, Germany. Sonderheft der Mitteilungen der GFFG:1-3 (2005)

Staatliches Weinbauinstitut Freiburg: Hinweise zur Untersuchung von Weinbergs- und Rebschulböden auf das Vorkommen von virusübertragenden Nematoden, Freiburg (1992)

Staats M, Van Baarlen P, Van Kan Jan AL: Molecular Phylogeny of the Plant Pathogenic Genus Botrytis and the Evolution of Host Specificity. Molecular Biology and Evolution. 22, Nr. 2, S. 333–346 (2005)

Toljander JF, Artursson V et al.: Attachment of different soil bacteria to arbuscular mycorrhizal fungal extraradical hyphae is determined by hyphal vitality and fungal species. FEMS Microbiol. Lett. 254, 34–40 (2006)

Wainwright M: Effects of fungicides on the microbiology and biochemistry of soils — a review. Zeitschrift für Pflanzenernährung und Bodenkunde, 140: 587–603. doi: 10.1002/jpln.19771400512 (1977)

Whitelaw-Weckert M  et al.: The effect of herbicides and permanent swards on soil microbial populations in the vineyard. SuperSoil 2004: 3rd Australian New Zealand Soils Conference, 5 – 9 December 2004, University of Sydney, Australia (2004)

Web-Literatur:

1http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html

Bildverzeichnis:

Abb. 1: TAIZ LINCOLN, ZEIGER EDUARDO (2002) Plant Physiology, third edition. Sinauer Associates Inc., Seite 268

Abb. 2: http://www.endure-network.eu/about_endure/all_the_news/in_depth_biological_controls

Abb.3: http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html

Literaturverzeichnis:

ARTURSSON V., FINLAY R. D., JANSSON J. K. 2006. Interactions between arbuscular mycorrhizal fungi and bacteria and their potential for stimulating plant growth. Environmental Microbiology, 8(1), 1–10

DELMOTTE N., KNIEF C. et al. 2009. Community proteogenomics reveals insights into the physiology of phyllosphere bacteria. Proceedings of the National Academy of Sciences 38, 2009, S. 16428–16433,

ELAD Y. 1996. Mechanisms involved in the biological control of Botrytis cinerea incited

diseases. Europ. Journal of Plant Pathology, 102, 719-732

ENGELEN B., MEINKEN K., VON WINTZINGERODE F. et al. 1998. Monitoring Impact of a Pesticide Treatment on Bacterial Soil Communities by Metabolic and Genetic Fingerprinting in Addition to Conventional Testing Procedures. Applied and Environmental Microbiology, Aug. 1998, p. 2814–2821

FOX J. E., GULLEDGE J., ENGELHAUPT E. 2007. Pesticides reduce symbiotic efficiency of nitrogen-fixing rhizobia and host plants. PNAS, 10282–10287, vol. 104, no. 24

GUBLER W.D., BAUMGARTNER K., BROWNE G. T. et al. 2004. Root diseases of grapevines in California and their control. Australasian Plant Pathology, 33, 157–165

HOFFMANN H. 2004. Untersuchungen zur Biozidauswirkung auf Bodenbakterien mit Hilfe von mikrobiologischen und molekularbiologischen Methoden. BAM-Dissertationsreihe. 3.Band. Berlin 2004.

LEVITAN L. 1997. An Overview of PESTICIDE IMPACT ASSESSMENT SYSTEMS (a.k.a. “Pesticide Risk Indicators”) based on Indexing or Ranking Pesticides by Environmental Impact. Background Paper Prepared for the Organisation of Economic Cooperation and Development (OECD) Workshop on Pesticide Risk Indicators 21-23 April, 1997 Copenhagen, Denmark (revised May 19, 1997).

LOPRESTI J. 2004. Managing pesticide resistance in the vineyard. CRC for Viticulture,

Pesticide application fact sheet 4, Version 1, June 2004.

NIGGLI C. 2010. Bodenleben – Biodiversität als landwirtschaftliche Methode (Teil 3).

Journal für Terroirwein und Biodiversität, ISSN 1663-0521

RUMBOU A., GOBBIN D. 2005. First approach of Plasmopara viticola population biology:

merging epidemiology and population genetics. Rudolf Hermanns foundation award in viticultural and horticultural sciences. Geisenheim, Germany. Sonderheft der Mitteilungen der

GFFG:1-3

STAATLICHES WEINBAUINSTITUT FREIBURG 1992. Hinweise zur Untersuchung von Weinbergs- und Rebschulböden auf das Vorkommen von virusübertragenden Nematoden, Freiburg

STAATS M., VAN BAARLEN P., VAN KAN JAN A. L. 2005. Molecular Phylogeny of the Plant Pathogenic Genus Botrytis and the Evolution of Host Specificity. Molecular Biology and Evolution. 22, Nr. 2, S. 333–346.

TOLJANDER JONAS F., ARTURSSON V. et al. 2006. Attachment of different soil bacteria to arbuscular mycorrhizal fungal extraradical hyphae is determined by hyphal vitality and fungal species. FEMS Microbiol. Lett. 254, 34–40.

WAINWRIGHT, M. 1977. Effects of fungicides on the microbiology and biochemistry of soils — a review. Zeitschrift für Pflanzenernährung und Bodenkunde, 140: 587–603. doi: 10.1002/jpln.19771400512.

WHITELAW-WECKERT M. et al. 2004. The effect of herbicides and permanent swards on soil microbial populations in the vineyard. SuperSoil 2004: 3rd Australian New Z

Literaturverzeichnis:

ARTURSSON V., FINLAY R. D., JANSSON J. K. 2006. Interactions between arbuscular mycorrhizal fungi and bacteria and their potential for stimulating plant growth. Environmental Microbiology, 8(1), 1–10

DELMOTTE N., KNIEF C. et al. 2009. Community proteogenomics reveals insights into the physiology of phyllosphere bacteria. Proceedings of the National Academy of Sciences 38, 2009, S. 16428–16433,

ELAD Y. 1996. Mechanisms involved in the biological control of Botrytis cinerea incited

diseases. Europ. Journal of Plant Pathology, 102, 719-732

ENGELEN B., MEINKEN K., VON WINTZINGERODE F.  et al. 1998. Monitoring Impact of a Pesticide Treatment on Bacterial Soil Communities by Metabolic and Genetic Fingerprinting in Addition to Conventional Testing Procedures. Applied and Environmental Microbiology, Aug. 1998, p. 2814–2821

FOX J. E., GULLEDGE J., ENGELHAUPT E. 2007. Pesticides reduce symbiotic efficiency of nitrogen-fixing rhizobia and host plants. PNAS, 10282–10287, vol. 104, no. 24

GUBLER W.D., BAUMGARTNER K., BROWNE G. T. et al. 2004. Root diseases of grapevines in California and their control. Australasian Plant Pathology, 33, 157–165

HOFFMANN H. 2004. Untersuchungen zur Biozidauswirkung auf Bodenbakterien mit Hilfe von mikrobiologischen und molekularbiologischen Methoden. BAM-Dissertationsreihe. 3.Band. Berlin 2004.

LEVITAN L. 1997. An Overview of PESTICIDE IMPACT ASSESSMENT SYSTEMS (a.k.a. “Pesticide Risk Indicators”) based on Indexing or Ranking Pesticides by Environmental Impact. Background Paper Prepared for the Organisation of Economic Cooperation and Development (OECD) Workshop on Pesticide Risk Indicators 21-23 April, 1997 Copenhagen, Denmark (revised May 19, 1997).

LOPRESTI J. 2004. Managing pesticide resistance in the vineyard. CRC for Viticulture,

Pesticide application fact sheet 4, Version 1, June 2004.

NIGGLI C. 2010. Bodenleben – Biodiversität als landwirtschaftliche Methode (Teil 3).

Journal für Terroirwein und Biodiversität, ISSN 1663-0521

RUMBOU A., GOBBIN D. 2005. First approach of Plasmopara viticola population biology:

merging epidemiology and population genetics. Rudolf Hermanns foundation award in viticultural and horticultural sciences. Geisenheim, Germany. Sonderheft der Mitteilungen der

GFFG:1-3

STAATLICHES WEINBAUINSTITUT FREIBURG 1992. Hinweise zur Untersuchung von Weinbergs- und Rebschulböden auf das Vorkommen von virusübertragenden Nematoden, Freiburg

STAATS M., VAN BAARLEN P., VAN KAN JAN A. L. 2005. Molecular Phylogeny of the Plant Pathogenic Genus Botrytis and the Evolution of Host Specificity. Molecular Biology and Evolution. 22, Nr. 2, S. 333–346.

TOLJANDER JONAS F., ARTURSSON V. et al. 2006. Attachment of different soil bacteria to arbuscular mycorrhizal fungal extraradical hyphae is determined by hyphal vitality and fungal species. FEMS Microbiol. Lett. 254, 34–40.

WAINWRIGHT, M. 1977. Effects of fungicides on the microbiology and biochemistry of soils — a review. Zeitschrift für Pflanzenernährung und Bodenkunde, 140: 587–603. doi: 10.1002/jpln.19771400512.

WHITELAW-WECKERT M.  et al. 2004. The effect of herbicides and permanent swards on soil microbial populations in the vineyard. SuperSoil 2004: 3rd Australian New Zealand Soils

Conference, 5 – 9 December 2004, University of Sydney, Australia.

Web-Literatur:

1http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html

Bildverzeichnis:

Abb. 1: TAIZ LINCOLN, ZEIGER EDUARDO (2002) Plant Physiology, third edition. Sinauer Associates Inc., Seite 268

Abb. 2:

http://www.endure-network.eu/about_endure/all_the_news/in_depth_biological_controls

Abb.3: http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html

ealand Soils

Conference, 5 – 9 December 2004, University of Sydney, Australia.

Web-Literatur:

1http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html

Bildverzeichnis:

Abb. 1: TAIZ LINCOLN, ZEIGER EDUARDO (2002) Plant Physiology, third edition. Sinauer Associates Inc., Seite 268

Abb. 2:

http://www.endure-network.eu/about_endure/all_the_news/in_depth_biological_controls

Abb.3: http://www.morning-earth.org/graphic-e/biosphere/Bios-C-PlantsNew.html


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