SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896411300> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2896411300 abstract "Connectivity in an aquatic setting is determined by a combination of hydrodynamic circulation and the biology of the organisms driving linkages.These complex processes can be simulated in coupled biological-physical models. The physical model refers to an underlying circulation model defined by spatially-explicit nodes, often incorporating a particle-tracking model. The particles can then be given biological parameters or behaviors(such as maturity and/or survivability rates, diel vertical migrations, avoidance or seeking behaviors). The output of the bio-physical models can then be used to quantify connectivity among the nodes emitting and/or receiving the particles. Here we propose a method that makes use of kernel density estimation (KDE) on the output of a particle-tracking model, to quantify the infection or infestation pressure (IP) that each node causes on the surrounding area. Because IP is the product of both exposure time and the concentration of infectious agent particles, using KDE (which also combine elements of time and space), more accurately captures IP. This method is especially useful for those interested in infectious agent networks, a situation where IP is a superior measure of connectivity than the probability of particles from each node reaching other nodes. Here we illustrate the method by modelling the connectivity of salmon farms via sea lice larvae in the Broughton Archipelago, British Columbia, Canada. Analysis revealed evidence of two sub-networks of farms connected via a single farm, and evidence that the highest IP from a given emitting farm was often tens of kilometres or more away from that farm. We also classified farms as net emitters, receivers, or balanced, based on their structural role within the network. By better understanding how these salmon farms are connected to each other via their sea lice larvae, we can effectively focus management efforts to minimize the spread of sea lice between farms, advise on future site locations and coordinated treatment efforts, and minimize any impact of farms on juvenile wild salmon. The method has wide applicability for any system where capturing infectious agent networks can provide useful guidance for management or preventative planning decisions." @default.
W2896411300 created "2018-10-26" @default.
W2896411300 creator A5006194101 @default.
W2896411300 creator A5012235859 @default.
W2896411300 creator A5049058088 @default.
W2896411300 creator A5078213462 @default.
W2896411300 creator A5083367614 @default.
W2896411300 creator A5084990701 @default.
W2896411300 date "2018-10-30" @default.
W2896411300 modified "2023-09-29" @default.
W2896411300 title "The Use of Kernel Density Estimation With a Bio-Physical Model Provides a Method to Quantify Connectivity Among Salmon Farms: Spatial Planning and Management With Epidemiological Relevance" @default.
W2896411300 cites W1498323969 @default.
W2896411300 cites W1522612774 @default.
W2896411300 cites W1525022431 @default.
W2896411300 cites W1538197899 @default.
W2896411300 cites W1558451171 @default.
W2896411300 cites W1567258326 @default.
W2896411300 cites W1833193765 @default.
W2896411300 cites W1964461038 @default.
W2896411300 cites W1972949831 @default.
W2896411300 cites W1973746945 @default.
W2896411300 cites W1985758132 @default.
W2896411300 cites W1997555072 @default.
W2896411300 cites W2001088019 @default.
W2896411300 cites W2006565683 @default.
W2896411300 cites W2009568203 @default.
W2896411300 cites W2010873394 @default.
W2896411300 cites W2013339269 @default.
W2896411300 cites W2027175126 @default.
W2896411300 cites W2028466088 @default.
W2896411300 cites W2028642411 @default.
W2896411300 cites W2031779581 @default.
W2896411300 cites W2034991508 @default.
W2896411300 cites W2035097671 @default.
W2896411300 cites W2041242273 @default.
W2896411300 cites W2041653979 @default.
W2896411300 cites W2045671230 @default.
W2896411300 cites W2047146892 @default.
W2896411300 cites W2050105876 @default.
W2896411300 cites W2055882744 @default.
W2896411300 cites W2057127483 @default.
W2896411300 cites W2084368341 @default.
W2896411300 cites W2087162967 @default.
W2896411300 cites W2087364280 @default.
W2896411300 cites W2091752818 @default.
W2896411300 cites W2093875172 @default.
W2896411300 cites W2095195521 @default.
W2896411300 cites W2099405687 @default.
W2896411300 cites W2110664911 @default.
W2896411300 cites W2112902831 @default.
W2896411300 cites W2117160143 @default.
W2896411300 cites W2120235708 @default.
W2896411300 cites W2131693276 @default.
W2896411300 cites W2135842516 @default.
W2896411300 cites W2135914685 @default.
W2896411300 cites W2142815311 @default.
W2896411300 cites W2164245392 @default.
W2896411300 cites W2171707538 @default.
W2896411300 cites W2265463166 @default.
W2896411300 cites W2289083251 @default.
W2896411300 cites W2291336262 @default.
W2896411300 cites W2314633289 @default.
W2896411300 cites W2319096945 @default.
W2896411300 cites W2327502170 @default.
W2896411300 cites W2327863533 @default.
W2896411300 cites W2329675317 @default.
W2896411300 cites W2330840056 @default.
W2896411300 cites W2338310848 @default.
W2896411300 cites W2345706256 @default.
W2896411300 cites W2398553648 @default.
W2896411300 cites W2400279280 @default.
W2896411300 cites W2419863935 @default.
W2896411300 cites W2529653549 @default.
W2896411300 cites W2551631786 @default.
W2896411300 cites W2563825771 @default.
W2896411300 cites W2592994778 @default.
W2896411300 cites W2606241588 @default.
W2896411300 cites W2606243453 @default.
W2896411300 cites W2626303143 @default.
W2896411300 cites W2740197673 @default.
W2896411300 cites W2741189050 @default.
W2896411300 cites W2774823215 @default.
W2896411300 cites W2775673926 @default.
W2896411300 cites W2790783844 @default.
W2896411300 cites W2806335533 @default.
W2896411300 cites W4230096730 @default.
W2896411300 cites W4250310729 @default.
W2896411300 cites W842761162 @default.
W2896411300 doi "https://doi.org/10.3389/fvets.2018.00269" @default.
W2896411300 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6218437" @default.
W2896411300 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30425996" @default.
W2896411300 hasPublicationYear "2018" @default.
W2896411300 type Work @default.
W2896411300 sameAs 2896411300 @default.
W2896411300 citedByCount "27" @default.
W2896411300 countsByYear W28964113002019 @default.
W2896411300 countsByYear W28964113002020 @default.
W2896411300 countsByYear W28964113002021 @default.
W2896411300 countsByYear W28964113002022 @default.
W2896411300 countsByYear W28964113002023 @default.