| 000 | 00000nam 2200000zi 4500 |
| 001 | 9.930206 |
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| 003 | CaOODSP |
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| 005 | 20231128151358 |
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| 006 | m o d f |
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| 007 | cr mn||||||||| |
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| 008 | 231110t20232023onca ob f000 0 eng d |
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| 020 | |a9780660687735 |
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| 040 | |aCaOODSP|beng|erda|cCaOODSP |
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| 041 | 0 |aeng|beng|bfre |
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| 043 | |an-cn--- |
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| 086 | 1 |aFs97-4/3271E-PDF |
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| 100 | 1 |aLamothe, Karl A., |eauthor. |
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| 245 | 10|aPower to detect changes in occupancy and abundance of rare, imperfectly detected species using single-season hierarchical models / |cKarl A. Lamothe, Adam S. van der Lee, Scott M. Reid, and D. Andrew R. Drake. |
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| 264 | 1|aBurlington, ON : |bFisheries and Oceans Canada, Ontario and Prairie Region, |c2023. |
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| 264 | 4|c©2023 |
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| 300 | |a1 online resource (v, 27 pages) : |billustrations (some colour). |
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| 336 | |atext|btxt|2rdacontent |
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| 337 | |acomputer|bc|2rdamedia |
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| 338 | |aonline resource|bcr|2rdacarrier |
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| 490 | 1 |aCanadian manuscript report of fisheries and aquatic sciences, |x1488-5387 ; |v3271 |
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| 504 | |aIncludes bibliographical references (pages 24-27). |
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| 520 | 3 |a"Monitoring for species listed under the Species at Risk Act often does not begin until a suspected decline in abundance or distribution has occurred, leading to challenges for documenting trends. Here, simulations were performed to evaluate the power and precision of single-season occupancy and N-mixture models to detect proportional reductions in occupancy probability and abundance for imperfectly detected species in low abundance between two time periods. The results suggest that many sites and surveys are needed to achieve sufficient statistical power (i.e., 0.80) for detecting change when occupancy probability, detection probability, and abundance are low. For example, quantifying a 30% reduction in occupancy probability for a species with high detection probability (0.7) and moderate occupancy probability (0.5), 200 sites surveyed three times (600 samples) were needed to achieve a power of 0.80. For the same species with a detection probability of 0.30, the number of samples required increased to 1400. Even greater effort was needed to detect significant changes in abundance. Occupancy models generated estimates with greater accuracy and precision than N-mixture models for a given level of effort. Overall, the results suggest the need to maximize detection probability for rare species, which will reduce the effort needed to quantify trends with sufficient statistical power"--Abstract, page iv. |
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| 546 | |aIncludes abstracts in English and French. |
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| 650 | 0|aFish populations|xEstimates|zCanada|xMathematical models. |
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| 650 | 0|aRare fishes|xMonitoring|zCanada. |
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| 650 | 0|aFreshwater fishes|xMonitoring|zCanada. |
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| 650 | 6|aPoissons|xPopulations|xEstimation|zCanada|xModèles mathématiques. |
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| 650 | 6|aPoissons rares|xSurveillance|zCanada. |
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| 650 | 6|aPoissons d'eau douce|xSurveillance|zCanada. |
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| 710 | 1 |aCanada. |bDepartment of Fisheries and Oceans, |eissuing body. |
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| 710 | 1 |aCanada. |bDepartment of Fisheries and Oceans. |bOntario and Prairie Region, |eissuing body. |
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| 830 | #0|aCanadian manuscript report of fisheries and aquatic sciences ;|v3271.|w(CaOODSP)9.505211 |
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| 856 | 40|qPDF|s2.22 MB|uhttps://publications.gc.ca/collections/collection_2023/mpo-dfo/Fs97-4-3271-eng.pdf |
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