Journal
AGRICULTURE ECOSYSTEMS & ENVIRONMENT
Volume 137, Issue 1-2, Pages 93-98Publisher
ELSEVIER
DOI: 10.1016/j.agee.2010.01.005
Keywords
Two spotted spider mite; Troyer citrange; Trifoliate orange; Volkamer lemon; Alemow; Cleopatra mandarin
Funding
- Ministerio de Ciencia y Tecnologia [AGL2005-07155/C03, AGL2008-00197, AGL2008-05287-004/AGR]
- INIA-FEDER [RTA2006-0009-00-00]
- Societe Academique Vaudoise
- Swiss Occidental Leonardo network
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The two spotted spider mite Tetranychus urticae Koch (Acari: Tetranychidae) is a major pest of citrus in Spain. Commercial citrus plants are always propagated asexually by bud-grafting onto a seedling rootstock. During the last 70 years, millions of citrus trees grafted on sour orange have been destroyed because of Citrus tristeza virus (CTV). Therefore other rootstocks are nowadays predominant. The aim of this study was to asses the influence of the rootstock on selected life history parameters of T. urticae. Mites were reared on leaves of Citrus unshiu trees grafted on six different rootstocks: sour orange, Troyer citrange, trifoliate orange, Volkamer lemon, Alemow and Cleopatra mandarin. Some parameters (sex ratio, egg hatching and survival) were not affected by the rootstock, whereas many other important ones were (fecundity, oviposition rate, lifespan and development time). These differences may explain the diversity found in the selected life history parameters (net fecundity, generation time and intrinsic rate of increase, r(m)). Sour orange appeared as the worst rootstock for T. urticae (r(m) = 0.140). It was closely followed by Troyer citrange and trifoliate orange (6% and 9% increase in r(m), respectively), then by Alemow (35.3% increase in r(m)), Volkamer lemon (77.6% increase in r(m)) and finally Cleopatra mandarin which yielded an r(m) 89.1% higher than sour orange. These results can explain, at least partially, the increasing prevalence of T. urticae as a pest in Spanish citrus orchards. Furthermore, problems could become much more severe on salt-tolerant rootstocks because of global warming, which is expected to exacerbate the threat of salinity, especially in areas with a semi-arid climate. (C) 2010 Elsevier B.V. All rights reserved.
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