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121.
Range position and climate sensitivity: The structure of among‐population demographic responses to climatic variation
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Staci M. Amburgey David A. W. Miller Evan H. Campbell Grant Tracy A. G. Rittenhouse Michael F. Benard Jonathan L. Richardson Mark C. Urban Ward Hughson Adrianne B. Brand Christopher J. Davis Carmen R. Hardin Peter W. C. Paton Christopher J. Raithel Rick A. Relyea A. Floyd Scott David K. Skelly Dennis E. Skidds Charles K. Smith Earl E. Werner 《Global Change Biology》2018,24(1):439-454
Species’ distributions will respond to climate change based on the relationship between local demographic processes and climate and how this relationship varies based on range position. A rarely tested demographic prediction is that populations at the extremes of a species’ climate envelope (e.g., populations in areas with the highest mean annual temperature) will be most sensitive to local shifts in climate (i.e., warming). We tested this prediction using a dynamic species distribution model linking demographic rates to variation in temperature and precipitation for wood frogs (Lithobates sylvaticus) in North America. Using long‐term monitoring data from 746 populations in 27 study areas, we determined how climatic variation affected population growth rates and how these relationships varied with respect to long‐term climate. Some models supported the predicted pattern, with negative effects of extreme summer temperatures in hotter areas and positive effects on recruitment for summer water availability in drier areas. We also found evidence of interacting temperature and precipitation influencing population size, such as extreme heat having less of a negative effect in wetter areas. Other results were contrary to predictions, such as positive effects of summer water availability in wetter parts of the range and positive responses to winter warming especially in milder areas. In general, we found wood frogs were more sensitive to changes in temperature or temperature interacting with precipitation than to changes in precipitation alone. Our results suggest that sensitivity to changes in climate cannot be predicted simply by knowing locations within the species’ climate envelope. Many climate processes did not affect population growth rates in the predicted direction based on range position. Processes such as species‐interactions, local adaptation, and interactions with the physical landscape likely affect the responses we observed. Our work highlights the need to measure demographic responses to changing climate. 相似文献
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Citizen science in schools: Engaging students in research on urban habitat for pollinators
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Manu E. Saunders Erin Roger William L. Geary Floret Meredith Dustin J. Welbourne Alex Bako Emily Canavan Francesca Herro Charlotte Herron Olivia Hung Madeline Kunstler Jade Lin Natasha Ludlow Mayling Paton Sunny Salt Tallulah Simpson Ariana Wang Nikki Zimmerman Kalani B. Drews Hayley F. Dawson Lachlan W. J. Martin Jack B. Sutton Chiquita C. Webber Amy L. Ritchie Leigham D. Berns Bella A. Winch Holly R. Reeves Eiron C. McLennan Jordan M. Gardner Charli G. Butler Emily I. Sutton Max M. Couttie Jake B. Hildebrand Isabella A. Blackney Justine A. Forsyth Deborah M. Keating Angela T. Moles 《Austral ecology》2018,43(6):635-642
Citizen science can play an important role in school science education. Citizen science is particularly relevant to addressing current societal environmental sustainability challenges, as it engages the students directly with environmental science and gives students an understanding of the scientific process. In addition, it allows students to observe local representations of global challenges. Here, we report a citizen science programme designed to engage school‐age children in real‐world scientific research. The programme used standardized methods deployed across multiple schools through scientist–school partnerships to engage students with an important conservation problem: habitat for pollinator insects in urban environments. Citizen science programmes such as the programme presented here can be used to enhance scientific literacy and skills. Provided key challenges to maintain data quality are met, this approach is a powerful way to contribute valuable citizen science data for understudied, but ecologically important study systems, particularly in urban environments across broad geographical areas. 相似文献
124.
Assessment of bioavailability of heavy metals using lux modified constructs of Pseudomonas fluorescens 总被引:1,自引:0,他引:1
G.I. Paton C.D. Campbell L. Anne Glover K. Killham 《Letters in applied microbiology》1995,20(1):52-56
The bioluminescence response of a genetically modified ( lux -marked) bacterium to potentially toxic elements (PTEs) was monitored using an in vitro assay. Washed cells of Pseudomonas fiuorescens were added to solutions containing various concentrations of metal salts. Bioluminescence, involving either plasmid or chromosomally encoded lux genes, declined as the metal concentration increased. The plasmid marked construct was significantly more sensitive to all metals except Cr. The order of metal sensitivity was found to be Cu = Zn > Cd > Cr > Ni for the chromosomally marked construct and Cu = Zn > Cd > Ni > Cr for the plasmid marked construct. The very sensitive response of lux -marked terrestrial bacteria to PTEs identified the potential for a rapid and flexible ecotoxicity assay for assessing the pollution of soil or fresh water environments. 相似文献
125.
Cyclospora sp. oocysts sporulated maximally at 22 and 30 degrees C for 14 days retarded sporulation. Up to 12% of human- and baboon-derived oocysts previously stored at 4 degrees C for 1 to 2 months sporulated when stored for 6 to 7 days at 30 degrees C. 相似文献
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Alexander V. Peskin Paul E. Pace Jessica B. Behring Louise N. Paton Marjolein Soethoudt Markus M. Bachschmid Christine C. Winterbourn 《The Journal of biological chemistry》2016,291(6):3053-3062
Peroxiredoxin 2 (Prx2) is a thiol protein that functions as an antioxidant, regulator of cellular peroxide concentrations, and sensor of redox signals. Its redox cycle is widely accepted to involve oxidation by a peroxide and reduction by thioredoxin/thioredoxin reductase. Interactions of Prx2 with other thiols are not well characterized. Here we show that the active site Cys residues of Prx2 form stable mixed disulfides with glutathione (GSH). Glutathionylation was reversed by glutaredoxin 1 (Grx1), and GSH plus Grx1 was able to support the peroxidase activity of Prx2. Prx2 became glutathionylated when its disulfide was incubated with GSH and when the reduced protein was treated with H2O2 and GSH. The latter reaction occurred via the sulfenic acid, which reacted sufficiently rapidly (k = 500 m−1 s−1) for physiological concentrations of GSH to inhibit Prx disulfide formation and protect against hyperoxidation to the sulfinic acid. Glutathionylated Prx2 was detected in erythrocytes from Grx1 knock-out mice after peroxide challenge. We conclude that Prx2 glutathionylation is a favorable reaction that can occur in cells under oxidative stress and may have a role in redox signaling. GSH/Grx1 provide an alternative mechanism to thioredoxin and thioredoxin reductase for Prx2 recycling. 相似文献
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David Ochoa Mindaugas Jonikas Robert T Lawrence Bachir El Debs Joel Selkrig Athanasios Typas Judit Villén Silvia DM Santos Pedro Beltrao 《Molecular systems biology》2016,12(12)
The coordinated regulation of protein kinases is a rapid mechanism that integrates diverse cues and swiftly determines appropriate cellular responses. However, our understanding of cellular decision‐making has been limited by the small number of simultaneously monitored phospho‐regulatory events. Here, we have estimated changes in activity in 215 human kinases in 399 conditions derived from a large compilation of phosphopeptide quantifications. This atlas identifies commonly regulated kinases as those that are central in the signaling network and defines the logic relationships between kinase pairs. Co‐regulation along the conditions predicts kinase–complex and kinase–substrate associations. Additionally, the kinase regulation profile acts as a molecular fingerprint to identify related and opposing signaling states. Using this atlas, we identified essential mediators of stem cell differentiation, modulators of Salmonella infection, and new targets of AKT1. This provides a global view of human phosphorylation‐based signaling and the necessary context to better understand kinase‐driven decision‐making. 相似文献
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