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2496505 
Journal Article 
Influence of urea on the cherry leaf spot pathogen, Blumeriella jaapii, and on microorganisms in decomposing cherry leaves 
Green, H; Bengtsson, M; Duval, X; Pedersen, HL; Hockenhull, J; Larsen, J 
2006 
Soil Biology and Biochemistry
ISSN: 0038-0717
EISSN: 1879-3428 
38 
2731-2742 
WOS:000240270300025 
Growth chamber and orchard experiments were carried out to clarify the response of the cherry leaf spot pathogen, Blumeriella jaapii, and microorganisms in the leaf litter to two levels of urea (2.5% or 5%) applied post leaf fall to sour cherry leaves. In general, urea application reduced the development of B. jaapii measured as biomass by quantitative PTA-ELISA in the leaf litter and spore counting in the spring and increased the overall microbial biomass (measured with biomarker phospholipid fatty acids (PLFAs)) and fungal activity (assessed as beta-N-acetylglucosaminidase activity). The biomass increase of all groups of microorganisms in the litter generally began immediately after application of urea and, with the notable excepts of B. jaapii and Gram-negative bacteria containing the biomarker PLFA cyclo17:0, continued after the ammonia and pH levels had stabilized to levels similar to the control leaves approximately 10 days later. Application of 2.5% urea increased the biomass of most groups of saprotrophic microorganisms and accelerated litter decomposition to a higher extent than application of 5% urea and during the first week after treatment applications the 5% urea level inhibited the total microbial biomass. This may be ascribed to ammonia toxicity as 5% urea resulted in a markedly higher ammonia elevation than 2.5% urea, the first week after application. From then onwards in both the 2.5% and 5% treatments the fungal and Gram-positive communities benefited from a lowered C:N ratio, increasing their activities approximately 2 times compared to a water-treated control. Inhibition of B. jaapii coincided with the period of urea breakdown in which elevated levels of ammonia and leaf pH were measured in the treated leaves. This period lasted for approximately 10 days after which the biomass of B. jaapii in the treated leaves continued to decrease at a slow but faster rate than in the untreated leaves. Our results indicate that the urea application caused an elevation in leaf pH and ammonia levels, which together with an acceleration in litter decomposition, adversely affected the saprotrophic growth of B. jaapii, leading to reduced production of ascospores and winter-conidia the following spring. (c) 2006 Elsevier Ltd. All rights reserved. 
ammonia; beta-N-acetylglucosaminidase; C : N; ELISA; pH; phospholipid fatty acids; urease; litter decomposition