SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2757367428> ?p ?o ?g. }

Showing items 1 to 100 of ±355 with 100 items per page.

W2757367428 endingPage "580" @default.
W2757367428 startingPage "559" @default.
W2757367428 abstract "Individual differences in contact rate can arise from host, group and landscape heterogeneity and can result in different patterns of spatial spread for diseases in wildlife populations with concomitant implications for disease control in wildlife of conservation concern, livestock and humans. While dynamic disease models can provide a better understanding of the drivers of spatial spread, the effects of landscape heterogeneity have only been modelled in a few well-studied wildlife systems such as rabies and bovine tuberculosis. Such spatial models tend to be either purely theoretical with intrinsic limiting assumptions or individual-based models that are often highly species- and system-specific, limiting the breadth of their utility. Our goal was to review studies that have utilized dynamic, spatial models to answer questions about pathogen transmission in wildlife and identify key gaps in the literature. We begin by providing an overview of the main types of dynamic, spatial models (e.g., metapopulation, network, lattice, cellular automata, individual-based and continuous-space) and their relation to each other. We investigate different types of ecological questions that these models have been used to explore: pathogen invasion dynamics and range expansion, spatial heterogeneity and pathogen persistence, the implications of management and intervention strategies and the role of evolution in host-pathogen dynamics. We reviewed 168 studies that consider pathogen transmission in free-ranging wildlife and classify them by the model type employed, the focal host-pathogen system, and their overall research themes and motivation. We observed a significant focus on mammalian hosts, a few well-studied or purely theoretical pathogen systems, and a lack of studies occurring at the wildlife-public health or wildlife-livestock interfaces. Finally, we discuss challenges and future directions in the context of unprecedented human-mediated environmental change. Spatial models may provide new insights into understanding, for example, how global warming and habitat disturbance contribute to disease maintenance and emergence. Moving forward, better integration of dynamic, spatial disease models with approaches from movement ecology, landscape genetics/genomics and ecoimmunology may provide new avenues for investigation and aid in the control of zoonotic and emerging infectious diseases." @default.
W2757367428 created "2017-10-06" @default.
W2757367428 creator A5012223777 @default.
W2757367428 creator A5018026845 @default.
W2757367428 creator A5045311589 @default.
W2757367428 date "2017-10-22" @default.
W2757367428 modified "2023-10-16" @default.
W2757367428 title "Dynamic, spatial models of parasite transmission in wildlife: Their structure, applications and remaining challenges" @default.
W2757367428 cites W127187017 @default.
W2757367428 cites W1524011947 @default.
W2757367428 cites W1527749523 @default.
W2757367428 cites W1537672402 @default.
W2757367428 cites W1538484393 @default.
W2757367428 cites W1563441478 @default.
W2757367428 cites W1581066136 @default.
W2757367428 cites W1587072159 @default.
W2757367428 cites W1811157341 @default.
W2757367428 cites W1813609667 @default.
W2757367428 cites W1828175302 @default.
W2757367428 cites W1885265509 @default.
W2757367428 cites W1908896570 @default.
W2757367428 cites W1932101309 @default.
W2757367428 cites W1949037089 @default.
W2757367428 cites W1964530223 @default.
W2757367428 cites W1965075026 @default.
W2757367428 cites W1965988742 @default.
W2757367428 cites W1966898829 @default.
W2757367428 cites W1970506897 @default.
W2757367428 cites W1971156194 @default.
W2757367428 cites W1973799576 @default.
W2757367428 cites W1973836747 @default.
W2757367428 cites W1974600351 @default.
W2757367428 cites W1974781071 @default.
W2757367428 cites W1975564091 @default.
W2757367428 cites W1975958490 @default.
W2757367428 cites W1976430185 @default.
W2757367428 cites W1976723930 @default.
W2757367428 cites W1977470776 @default.
W2757367428 cites W1977511391 @default.
W2757367428 cites W1978318525 @default.
W2757367428 cites W1980651254 @default.
W2757367428 cites W1981074862 @default.
W2757367428 cites W1983067550 @default.
W2757367428 cites W1983319163 @default.
W2757367428 cites W1984378100 @default.
W2757367428 cites W1985649735 @default.
W2757367428 cites W1987572966 @default.
W2757367428 cites W1990273831 @default.
W2757367428 cites W1990274329 @default.
W2757367428 cites W1991038167 @default.
W2757367428 cites W1991189976 @default.
W2757367428 cites W1993693094 @default.
W2757367428 cites W1994969895 @default.
W2757367428 cites W1995678552 @default.
W2757367428 cites W1996531874 @default.
W2757367428 cites W1997280549 @default.
W2757367428 cites W1997931340 @default.
W2757367428 cites W1998134417 @default.
W2757367428 cites W1998143572 @default.
W2757367428 cites W1998304116 @default.
W2757367428 cites W2001852990 @default.
W2757367428 cites W2004257140 @default.
W2757367428 cites W2005391019 @default.
W2757367428 cites W2006462835 @default.
W2757367428 cites W2007833681 @default.
W2757367428 cites W2007843496 @default.
W2757367428 cites W2008554555 @default.
W2757367428 cites W2008760969 @default.
W2757367428 cites W2008827851 @default.
W2757367428 cites W2009138418 @default.
W2757367428 cites W2009567489 @default.
W2757367428 cites W2010198575 @default.
W2757367428 cites W2010365240 @default.
W2757367428 cites W2012654129 @default.
W2757367428 cites W2012934451 @default.
W2757367428 cites W2013240542 @default.
W2757367428 cites W2014162552 @default.
W2757367428 cites W2019990055 @default.
W2757367428 cites W2020586751 @default.
W2757367428 cites W2023723054 @default.
W2757367428 cites W2023860178 @default.
W2757367428 cites W2023914678 @default.
W2757367428 cites W2024085986 @default.
W2757367428 cites W2025628390 @default.
W2757367428 cites W2027031243 @default.
W2757367428 cites W2027314610 @default.
W2757367428 cites W2027617201 @default.
W2757367428 cites W2027867812 @default.
W2757367428 cites W2028623444 @default.
W2757367428 cites W2028644412 @default.
W2757367428 cites W2029212599 @default.
W2757367428 cites W2029750958 @default.
W2757367428 cites W2030093197 @default.
W2757367428 cites W2030984923 @default.
W2757367428 cites W2031713458 @default.
W2757367428 cites W2033017709 @default.
W2757367428 cites W2035387985 @default.
W2757367428 cites W2035485629 @default.