MARC21

000	02089nam 2200313za 4500
001	9.557261
003	CaOODSP
005	20221107133912
007	cr \|\|\|\|\|\|\|\|\|\|\|
008	150406s2015 nkcdb o f000 0 eng d
020	\|a978-1-100-25493-7
040	\|aCaOODSP\|beng
041	\|aeng\|bfre
043	\|an-cn---
086	1 \|aFs97-6/3118E-PDF
245	00\|aPredicting stream temperatures under a climate change scenario \|h[electronic resource] : \|bimpacts on critical temperatures for Atlantic salmon (Salmo salar) / \|cby Nathalie N. Brodeur ... [et al.].
260	\|aMoncton, N.B. : \|bFisheries and Oceans Canada, \|c2015.
300	\|aix, 44 p. : \|bfig., graphs, maps, tables.
490	1 \|aCanadian technical report of fisheries and aquatic sciences, \|x1488-5379 ; \|v3118
504	\|aIncludes bibliographical references (p. 21-27).
520	\|aOver the next century, the mean annual air and water temperatures of the Little Southwest Miramichi River are projected to increase by 4.4°C and 3.2°C, respectively. The predicted increase in water temperature will ultimately impact the number of days exceeding critical water temperature thresholds for Atlantic salmon. Under these changes, days surpassing the critical thresholds (Tw-min > 20°C and Twmax > 23°C) could increase by 21 to 41 days per year. Results from this study support many others that have predicted increasing stream temperature trends over the next century. As such, the management of cold water habitats and angling activities will become increasingly more important in the future for the protection Atlantic salmon populations.
692	07\|2gccst\|aFisheries resources
692	07\|2gccst\|aSalt water fish
692	07\|2gccst\|aClimate change
692	07\|2gccst\|aFisheries management
700	1 \|aBrodeur, Nathalie N.
710	1 \|aCanada. \|bDepartment of Fisheries and Oceans.
830	#0\|aCanadian technical report of fisheries and aquatic sciences,\|x1488-5379 ; \|v3118\|w(CaOODSP)9.504449
856	40\|qPDF\|s334 KB\|uhttps://publications.gc.ca/collections/collection_2015/mpo-dfo/Fs97-6-3118-eng.pdf