2012
DOI: 10.1007/s10658-012-9963-y
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Information networks for disease: commonalities in human management networks and within-host signalling networks

Abstract: Network models of human epidemics can often be improved by including the effects of behaviour modification in response to information about the approach of epidemics. Similarly, there are opportunities to incorporate the flow of information and its effects in plant disease epidemics in network models at multiple scales. (1) In the case of human management networks for plant disease, each node of a network has four main components: plant communities, microbial communities, human information (among researchers, … Show more

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Cited by 32 publications
(28 citation statements)
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“…We did not explore the effects of neighboring locations on yield loss at a particular location. This could be evaluated using more mechanistic network models of pathogen or pest movement through space (Moslonka-Lefebvre et al, 2011), and potentially network models for the movement of opinion that modifies decision-making (Garrett, 2012).…”
Section: General Results and Variations On The Modelmentioning
confidence: 99%
“…We did not explore the effects of neighboring locations on yield loss at a particular location. This could be evaluated using more mechanistic network models of pathogen or pest movement through space (Moslonka-Lefebvre et al, 2011), and potentially network models for the movement of opinion that modifies decision-making (Garrett, 2012).…”
Section: General Results and Variations On The Modelmentioning
confidence: 99%
“…Multilayer networks integrate linked processes, such as networks of the spread of information about disease and linked networks for the spread of the disease and/or its vectors [180,[184][185][186]. Multilayer networks can provide analyses about how networks interact to produce system level outcomes.…”
Section: Ecology and Epidemiologymentioning
confidence: 99%
“…They may alter plant uptake of nutrients, potentially affecting nutrient stress as well as susceptibility to infectious disease. They may alter plant susceptibility through processes such as induced systemic resistance and systemic acquired resistance (Vallad & Goodman, 2004;van Loon, 2007), with potentially complex network structures for information related to microbial associations (Garrett, 2012). The many ways in which microbial communities can influence these systems are an active area of study, but much remains to be known about what optimal levels of induction may be for plants, and when 'overstimulation' of these systems may have a net cost to plants.…”
Section: The Role Of Microbial Communities In Plant Diseasementioning
confidence: 99%