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Clofentezine and difiovidazin have been developed for the control of a wide range of spider mite species such as Tetranychus spp., Panonychus spp. and Eriophyid [Pg.827]

Common name I UP AC name Development code Patent Launch Melting point log P [Pg.827]

Nevertheless resistance to dofentezine was identified in different populations of mites and areas such as the European Red Mite (P. ulmi) from orchards in Ontario after ca. 5 years of use [13] or populations of T. urticae from Australia [14, [Pg.829]

15] with resistance factors between 770 and 2000-fold at LC50- or LC9o-values. Observations on field populations indicated that resistance persisted for at least two seasons [13]. Cross-resistance to hexythiazox was also observed [14]. Enhanced detoxification by increased activity of mono-oxygenases (MO) and esterases is at least partially responsible for the observed resistance and cross-resistance [16]. [Pg.829]

Difiovidazin was introduced in 1997 to East-European and Asian markets (Table 26.2.5). Furthermore, it has been submitted for registration in the EU. [Pg.829]


Hyde J S and Froncisz W 1989 Loop gap resonators Advanced ERR in Biology and Biochemistry ed A J Hoff (Amsterdam Elsevier) oh 7, pp 277-305... [Pg.1588]

This relation, known as the Henderson-Hasselbalch equation, is often used in biology and biochemistry to calculate the pH of buffers. Historically, it was Henderson who discovered Equation 14.1 in 1908. Hasselbalch put it in logarithmic form eight years later. [Pg.384]

Bader M, Paul M, Fernandesz-Alfonso M et al (1994) Molecular biology and biochemistry of the renin-angiotensin system, Chap. 11. In Swales ID (ed) Textbook of hypertension. Blackwell Scientific Publications, Oxford, London, Edinburgh, pp 214-232... [Pg.11]

Department of Biology and Biochemistry, University of Bath, Bath, UK... [Pg.851]

Wilson VG (ed) (2004) SUMOylation molecular biology and biochemistry, Norfolk Horizon Scientific Press Ltd., pp 350... [Pg.1167]

C18-0143. Virtuaiiy aii investigations in cell biology and biochemistry must be carried out in buffered aqueous... [Pg.1348]

School of Biology and Biochemistry, University of Bath, Bath, BA2 7AY, United Kingdom CEPLAC/Cocoa Research Centre/SETEA, Cx. Postal 07, 45 600.000, Itabuna, Bahia, Brazil... [Pg.861]

W. Cheng, D. Coleman, C. R. Carroll, and C. A. Hoffman, In situ measurement of root respiration and soluble C concentrations in the rhizosphere. Soil Biology and Biochemistry 25 1189 (1993). [Pg.126]

D. A. Barber and J. M. Lynch, Microbial growth in the rhizosphere. Soil Biology and Biochemistry 9 305 (1977). [Pg.126]

J. Swinnen, J. A. Van Veen, and R. Merckx, Root decay and turnover of rhizodepos-its in field-grown winter wheat and spring barley estimated by C pulse labelling. Soil Biology and Biochemistry 27 211 (1995). [Pg.126]

H. H. Janzen and Y. Bruinsma, Methodology for the quantification of root and rhizosphere nitrogen dynamics by exposure of shoots to N labelled ammonia. Soil Biology and Biochemistry 2/ 189 (1989). [Pg.127]

L. Klemedtsson, P. Berg, M. Clarholm, and J. Schnurer, Microbial transformations in the root environment of barley. Soil Biology and Biochemistry / 9 551 (1987). [Pg.127]

E. Hozore and M. Alexander. Bacterial characteri.stics important to rhizo.sphere competance. Soil Biology and Biochemistry 23 717 (1991). [Pg.130]

L. A. Harrison, L. Lctendre, P. Kovacevich, E. Pierson, and D. Weller, Purilication of an antibiotic effective against Gaeumannomyces graininis var. tritici produced by a biocontrol agetU, Pseudomonas aureofaciens. Soil Biology and Biochemistry 2.5 215 (1993). [Pg.132]

J. Inbar and I. Chet, Evidence that chitinase produced by Aeromonas caviae is, involved in the biological control of soil-borne plant pathogens by this bacteria. Sod Biology and Biochemistry 23 913 (1991). [Pg.133]

P. A. H. M. Bakker, A. W. Bakker, J. D. Murugg, P. J. Weisbeek, and B. Schippers, Bioassay for studying the role of siderophores in potato growth stimulation by Pseudomonas spp. in short potato rotations. Soil Biology and Biochemistry / 9 443 (1987). [Pg.135]

A. W. Bakker and B. Schippers, Microbial cyanide production in the rhizosphere in relation to potato yield reduction and Pseudomonas spp-mediated plant growth-stimulation, Soil Biology and Biochemistry 19 451 (1987). [Pg.135]

J. K. Martin and J. R. Kemp, Carbon loss from roots of wheat cultivars. Soil Biology and Biochemistry /2 551 (1980). [Pg.137]

J. K. Martin, Effect of soil moisture on the release of organic carbon from wheat roots. Soil Biology and Biochemistry 9 303 (1977). [Pg.137]

I. Kraffezyk, G. Trolldenier, and H. Beringer, Soluble root exudates of maize influence of potassium supply and rhizosphere microorganisms. Soil Biology and Biochemistry /6 315 (1984). [Pg.138]

M. C. Rillig, K. M. Scow, J. N. Klironomos, and M. F, Allen, Microbial carbon-substrate utilisation in the rhizosphere of Cutierrezia sarothrae grown in elevated atmospheric carbon dioxide. Soil Biology and Biochemistry 29 1387 (1997). [Pg.139]

C. E. Heijnen, C. H. Hok-a-Hin, and J. D. Van Elsas, Root colonisation by Pseudomonas fluorescens introduced into soil amended with betonite. Soil Biology and Biochemistry 25 239 (1993). [Pg.139]

W. Kolb and P. Martin. Influence of nitrogen on the number of Ni-fixing and total bacteria in the rhizosphere. Soil Biology and Biochemistry 20 221 (1988). [Pg.139]

E. Liljeroth, J. A. Van Veen, and H. J. Miller, As.similate translocation to the rhizosphere of two wheat lines and subsequent utilization by rhizosphere microorganisms at two soil nitrogen concentrations. Soil Biology and Biochemistry 22 1015 (1990). [Pg.139]

W. Verstraete and J. P. Voets, Soil microbial and biochemical characteristics in relation to soil management and fertility. Soil Biology and Biochemistry 9 253 (1977). [Pg.139]

H. Bolton, L. F. Elliott, R, I, Papendick, and D, F. Bezdicek, Soil microbial biomass and selected soil enzyme activities effect of fertilisation and cropping practices. Soil Biology and Biochemistry 17 291 (1985),... [Pg.139]

P. A. Harris, H. H. Schomberg, P. A. Banks, and J. Giddens, Burning, tillage and herbicide effects on the soil microflora in a wheat-soybean double-crop system. Soil Biology and Biochemistry 27 153 (1995). [Pg.139]

E. A. Paul and F. E. Clark, Soil Biology and Biochemistry, Academic Press, London, 1996. [Pg.321]

Nikki J. Marks, School of Biology and Biochemistry, Medical Biology Centre, The Queen s University, Belfast BT7 INN, UK. [Pg.7]

Patel, M.S. and Roche, T.E. (1990) Molecular biology and biochemistry of pyruvate dehydrogenase complexes. FASEBJournal4, 3224—3233. [Pg.290]


See other pages where Biochemistry and biology is mentioned: [Pg.424]    [Pg.423]    [Pg.1529]    [Pg.414]    [Pg.135]    [Pg.149]    [Pg.1]    [Pg.319]    [Pg.127]    [Pg.135]    [Pg.988]    [Pg.34]    [Pg.246]    [Pg.6]   


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