Our study birds, with different 10 quantiles in different colors, from green (close) to red (far). Extra-distance was added to the points in the Mediterranean Sea to account for the flight around Spain. Distances for each quantile are in the pie chart (unit: 102 km). (b) Average monthly overlap ( ) of the male and female 70 occupancy kernels throughout the year (mean ?SE). The overwintering months are represented with open circles and the breeding months with gray circles. (c ) Occupancy kernels of puffins during migration for females (green, left) and males (blue, right) in September/October (c ), December (e ), and February (g ). Different shades represent different levels of occupancy, from 10 (E7449 site darkest) to 70 (lightest). The colony is indicated with a star.to forage more to catch enough prey), or birds attempting to build more reserves. The lack of correlation between foraging effort and individual breeding success suggests that it is not how much birds forage, but where they forage (and perhaps what they prey on), which affects how successful they are during the following breeding season. Interestingly, birds only visited the Mediterranean Sea, usually of low productivity, from January to March, which corresponds32 18-0-JulSepNovJanMarMay(d) September/October-males10 30 9010 3070 5070 50(f) December(h) Februaryto the occurrence of a large phytoplankton bloom. A combination fpsyg.2015.01413 of wind conditions, EED226 site winter mixing, and coastal upwelling in the north-western part increases nutrient availability (Siokou-Frangou et al. 2010), resulting in higher productivity (Lazzari et al. 2012). This could explain why these birds foraged more than birds anywhere else in the late winter and had a higher breeding success. However, we still know very little about the winter diet of adultBehavioral EcologyTable 1 (a) Total distance covered and DEE for each type of migration (mean ?SE and adjusted P values for pairwise comparison). (b) Proportions of daytime spent foraging, flying, and sitting on the surface for each type of migration route (mean ?SE and P values from linear mixed models with binomial family) (a) Distance covered (km) Atlantic + Mediterranean <0.001 <0.001 -- DEE (kJ/day) Atlantic + Mediterranean <0.001 <0.001 --Route type Local Atlantic Atlantic + Mediterranean (b)n 47 44Mean ?SE 4434 ?248 5904 ?214 7902 ?Atlantic <0.001 -- --Mean ?SE 1049 ?4 1059 ?4 1108 ?Atlantic 0.462 -- --Foraging ( of time) Mean ?SE Atlantic 0.001 -- -- Atlantic + Mediterranean <0.001 <0.001 --Flying ( of time) Mean ?SE 1.9 ?0.4 2.5 ?0.4 4.2 ?0.4 Atlantic 0.231 -- -- Atlantic + Mediterranean <0.001 <0.001 --Sitting on the water ( ) Mean ?SE 81.9 ?1.3 78.3 ?1.1 75.3 ?1.1 Atlantic <0.001 -- -- rstb.2013.0181 Atlantic + Mediterranean <0.001 <0.001 --Local Atlantic Atlantic + Mediterranean16.2 ?1.1 19.2 ?0.9 20.5 ?0.In all analyses, the "local + Mediterranean" route type is excluded because of its small sample size (n = 3). Significant values (P < 0.05) are in bold.puffins, although some evidence suggests that they are generalists (Harris et al. 2015) and that zooplankton are important (Hedd et al. 2010), and further research will be needed to understand the environmental drivers behind the choice of migratory routes and destinations.Potential mechanisms underlying dispersive migrationOur results shed light on 3 potential mechanisms underlying dispersive migration. Tracking individuals over multiple years (and up to a third of a puffin's 19-year average breeding lifespan, Harris.Our study birds, with different 10 quantiles in different colors, from green (close) to red (far). Extra-distance was added to the points in the Mediterranean Sea to account for the flight around Spain. Distances for each quantile are in the pie chart (unit: 102 km). (b) Average monthly overlap ( ) of the male and female 70 occupancy kernels throughout the year (mean ?SE). The overwintering months are represented with open circles and the breeding months with gray circles. (c ) Occupancy kernels of puffins during migration for females (green, left) and males (blue, right) in September/October (c ), December (e ), and February (g ). Different shades represent different levels of occupancy, from 10 (darkest) to 70 (lightest). The colony is indicated with a star.to forage more to catch enough prey), or birds attempting to build more reserves. The lack of correlation between foraging effort and individual breeding success suggests that it is not how much birds forage, but where they forage (and perhaps what they prey on), which affects how successful they are during the following breeding season. Interestingly, birds only visited the Mediterranean Sea, usually of low productivity, from January to March, which corresponds32 18-0-JulSepNovJanMarMay(d) September/October-males10 30 9010 3070 5070 50(f) December(h) Februaryto the occurrence of a large phytoplankton bloom. A combination fpsyg.2015.01413 of wind conditions, winter mixing, and coastal upwelling in the north-western part increases nutrient availability (Siokou-Frangou et al. 2010), resulting in higher productivity (Lazzari et al. 2012). This could explain why these birds foraged more than birds anywhere else in the late winter and had a higher breeding success. However, we still know very little about the winter diet of adultBehavioral EcologyTable 1 (a) Total distance covered and DEE for each type of migration (mean ?SE and adjusted P values for pairwise comparison). (b) Proportions of daytime spent foraging, flying, and sitting on the surface for each type of migration route (mean ?SE and P values from linear mixed models with binomial family) (a) Distance covered (km) Atlantic + Mediterranean <0.001 <0.001 -- DEE (kJ/day) Atlantic + Mediterranean <0.001 <0.001 --Route type Local Atlantic Atlantic + Mediterranean (b)n 47 44Mean ?SE 4434 ?248 5904 ?214 7902 ?Atlantic <0.001 -- --Mean ?SE 1049 ?4 1059 ?4 1108 ?Atlantic 0.462 -- --Foraging ( of time) Mean ?SE Atlantic 0.001 -- -- Atlantic + Mediterranean <0.001 <0.001 --Flying ( of time) Mean ?SE 1.9 ?0.4 2.5 ?0.4 4.2 ?0.4 Atlantic 0.231 -- -- Atlantic + Mediterranean <0.001 <0.001 --Sitting on the water ( ) Mean ?SE 81.9 ?1.3 78.3 ?1.1 75.3 ?1.1 Atlantic <0.001 -- -- rstb.2013.0181 Atlantic + Mediterranean <0.001 <0.001 --Local Atlantic Atlantic + Mediterranean16.2 ?1.1 19.2 ?0.9 20.5 ?0.In all analyses, the "local + Mediterranean" route type is excluded because of its small sample size (n = 3). Significant values (P < 0.05) are in bold.puffins, although some evidence suggests that they are generalists (Harris et al. 2015) and that zooplankton are important (Hedd et al. 2010), and further research will be needed to understand the environmental drivers behind the choice of migratory routes and destinations.Potential mechanisms underlying dispersive migrationOur results shed light on 3 potential mechanisms underlying dispersive migration. Tracking individuals over multiple years (and up to a third of a puffin's 19-year average breeding lifespan, Harris.
Related Posts
Eyes, increased ECM accumulation can lead to a diffuse thickening of
Eyes, increased ECM accumulation can lead to a diffuse thickening of the Bruch’s membrane beneath the RPE, and thus an impaired diffusion of oxygen towards the retina [23,24]. In this study, we hypothesized that cigarette smoke is responsible for these cellular changes in the RPE of AMD patients. In our experiments, we used cigarette smoke […]
DHF20 or vehicle was delivered ip at 3 h post-injury, and the protective effect on brain tissue damage was examined using cresyl violet histology at day 4
The 3rd examine was to decide the role of PI3K/Akt in 7,8-DHF effects by using the distinct PI3K inhibitor (LY294002) or the position of TrkB using a Trk antagonist (K252a). Animals had been randomized into five teams. Mice received either: 1) intracerebroventricular (icv) pretreatment with saline (motor vehicle manage for inhibitors) adopted by DHF20 right […]
Rh-PON1(wt); rh-PON1(2p) containing H115W/H134R substitutions and rh-PON1(3p)-containing H115W/H134R/R192KFigure three. Arylesterase and lactonase activities of P2Y6
Rh-PON1(wt); rh-PON1(2p) containing H115W/H134R substitutions and rh-PON1(3p)-containing H115W/H134R/R192KFigure three. Arylesterase and lactonase activities of P2Y6 Receptor Synonyms rh-PON1 enzymes. Panel A and B shows the phenyl acetate- and lactonehydrolyzing activities from the enzymes. Legends: ( ), rh-PON1(wt) and ( ), rh-PON1(7p). [Color figure is usually viewed in the on-line issue, that is readily available at […]