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Publication Type | Journal Article [3] | |
Year of Publication | 2009 | |
Authors | Aurambout, J. [4]; Finlay, K.J. [5]; Luck, J. [6]; Beattie, G.A.C. [7] | |
Journal Title | Ecological Modelling | |
Volume | 220 | |
Issue | 19 | |
Pages | 2512-2524 | |
Abstract | Increasing global temperatures as a result of climatechange are widely considered inevitable for Australia. Despite this, the specific effects of climatechange on Australian agriculture are little studied and the effects on agricultural pests and diseases are virtually unknown. In this paper we consider the impact of climatechange on the Asiatic citruspsyllid (Diaphorina citri Kuwayama [Hemiptera: Psyllidae]); one of two known vectors of huanglongbing (citrus greening); a debilitating disease which is caused in Asia by a phloem-limited bacterium ‘Candidatus Liberibacter asiaticus’ (α-Proteobacteria). D. citri does not occur in Australia, but if introduced would pose a major threat to the viability of the Australian citrus industry and to native Citrus species. This paper presents an approach developed to understand how climatechange may influence the behaviour, distribution and breeding potential of D. citri. Here we developed and describe an initial dynamic point model of D. citri biology in relation to its citrus host and applied it to a scenario of increasing temperatures, as indicators of climatechange, on a continental scale. A comparison between model outputs for the three time frames considered (1990, 2030 and 2070) confirms that increasing temperatures projected underclimatechange will affect the timing and duration of new citrus growth (flush) necessary for psyllid development throughout Australia. Flushing will start progressively earlier as the temperature increases and be of shorter duration. There will also be a gradual southward expansion of shorter durations of the occurrence of flush. Increasing temperatures will impact on D. citri both directly through alteration of its temperature dependant development cycle and indirectly through the impact on the host flushing cycle. For the whole of Australia, a comparison between model outputs for the three scenarios considered indicates the seasonality of D. citri development will change to match changes in citrus flush initiation. Results indicate that the risk of establishment by D. citri is projected to decrease under increasing temperatures, mainly due to shortened intervals when it can feed on new leaf flushes of the host. However, the spatially heterogeneous results also suggest that regions located on the southern coastline of Australia could become more suitable for D. citri than projected under current temperatures. These results confirm the value of a linked host-pest approach as based on D. citri climatic requirements alone the model would have accounted only for shorter development periods and predicted an increased risk of potentialdistribution | |
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Links:
[1] http://legacy.crcplantbiosecurity.com.au/program/preparedness-and-prevention
[2] http://legacy.crcplantbiosecurity.com.au/project/crc10071-climate-change
[3] http://legacy.crcplantbiosecurity.com.au/publications/research/type/102
[4] http://legacy.crcplantbiosecurity.com.au/publications/research/author/Aurambout
[5] http://legacy.crcplantbiosecurity.com.au/publications/research/author/Finlay
[6] http://legacy.crcplantbiosecurity.com.au/publications/research/author/Luck
[7] http://legacy.crcplantbiosecurity.com.au/publications/research/author/Beattie
[8] http://ac.els-cdn.com/S0304380009003330/1-s2.0-S0304380009003330-main.pdf?_tid=5eadea073dfebcfd5922d31ebc531306&acdnat=1337819301_72f18843462eff07b7634b9bfd00b7f4
[9] http://legacy.crcplantbiosecurity.com.au/publications/research/export/tagged/1845
[10] http://legacy.crcplantbiosecurity.com.au/publications/research/export/xml/1845
[11] http://legacy.crcplantbiosecurity.com.au/publications/research/export/bib/1845