Global Change Biology

Influence of temperature and spawning effort on Haliotis tuberculata mortalities caused by Vibrio harveyi: an example of emerging vibriosis linked to global warming
pp. 1365-1376(12)
Authors: TRAVERS, MARIE-AGNÈS; BASUYAUX, OLIVIER; LE GOÏC, NELLY; HUCHETTE, SYLVAIN; NICOLAS, JEAN-LOUIS; KOKEN, MARCEL; PAILLARD, CHRISTINE

Reorganization of a large marine ecosystem due to atmospheric and anthropogenic pressure: a discontinuous regime shift in the Central Baltic Sea
pp. 1377-1393(17)
Authors: MÖLLMANN, CHRISTIAN; DIEKMANN, RABEA; MÜLLER-KARULIS, BÄRBEL; KORNILOVS, GEORGS; PLIKSHS, MARIS; AXE, PHILIP

Copepod life cycle adaptations and success in response to phytoplankton spring bloom phenology
pp. 1394-1404(11)
Authors: SEEBENS, HANNO; EINSLE, ULRICH; STRAILE, DIETMAR

Elevated temperature reduces the respiratory scope of coral reef fishes
pp. 1405-1412(8)
Authors: NILSSON, GÖRAN E.; CRAWLEY, NATALIE; LUNDE, IDA G.; MUNDAY, PHILIP L.

Predicting impacts of climate-induced range expansion: an experimental framework and a test involving key grazers on temperate rocky shores
pp. 1413-1422(10)
Authors: FIRTH, LOUISE B.; CROWE, TASMAN P.; MOORE, PIPPA; THOMPSON, RICHARD C.; HAWKINS, STEPHEN J.

Effect of Sub-Polar Gyre, North Atlantic Oscillation and ambient temperature on size and abundance in the Icelandic Arctic fox
pp. 1423-1433(11)
Authors: HERSTEINSSON, PALL; YOM-TOV, YORAM; GEFFEN, ELI

Climate-induced changes in the small mammal communities of the Northern Great Lakes Region
pp. 1434-1454(21)
Authors: MYERS, PHILIP; LUNDRIGAN, BARBARA L.; HOFFMAN, SUSAN M. G.; HARAMINAC, ALLISON POOR; SETO, STEPHANIE H.

Exceptional carbon uptake in European forests during the warm spring of 2007: a data-model analysis
pp. 1455-1474(20)
Authors: DELPIERRE, N.; SOUDANI, K.; FRANÇOIS, C.; KÖSTNER, B.; PONTAILLER, J.-Y.; NIKINMAA, E.; MISSON, L.; AUBINET, M.; BERNHOFER, C.; GRANIER, A.; GRÜNWALD, T.; HEINESCH, B.; LONGDOZ, B.; OURCIVAL, J.-M.; RAMBAL, S.; VESALA, T.; DUFRÊNE, E.

Carbon sequestration in boreal jack pine stands following harvesting
pp. 1475-1487(13)
Authors: ZHA, TIANSHAN; BARR, ALAN G.; BLACK, T. ANDY; McCAUGHEY, J. HARRY; BHATTI, J.; HAWTHORNE, I.; KRISHNAN, PRAVEENA; KIDSTON, J.; SAIGUSA, N.; SHASHKOV, A.; NESIC, Z.

On carbon sequestration in desert ecosystems
pp. 1488-1490(3)
Authors: SCHLESINGER, WILLIAM H.; BELNAP, JAYNE; MARION, GILES

Vulnerability of carbon storage in North American boreal forests to wildfires during the 21st century
pp. 1491-1510(20)
Authors: BALSHI, M. S.; MCGUIRE, A. D.; DUFFY, P.; FLANNIGAN, M.; KICKLIGHTER, D. W.; MELILLO, J.

Climate change and plant invasions: restoration opportunities ahead?
pp. 1511-1521(11)
Authors: BRADLEY, BETHANY A.; OPPENHEIMER, MICHAEL; WILCOVE, DAVID S.

Chronic exposure to increasing background ozone impairs stomatal functioning in grassland species
pp. 1522-1533(12)
Authors: MILLS, GINA; HAYES, FELICITY; WILKINSON, SALLY; DAVIES, WILLIAM J.

Effect of ecosystem warming on boreal black spruce bud burst and shoot growth
pp. 1534-1543(10)
Authors: BRONSON, DUSTIN R.; GOWER, STITH T.; TANNER, MYRON; VAN HERK, INGRID

Response of ecosystem carbon exchange to warming and nitrogen addition during two hydrologically contrasting growing seasons in a temperate steppe
pp. 1544-1556(13)
Authors: XIA, JIANYANG; NIU, SHULI; WAN, SHIQIANG

Climate change and plant distribution: local models predict high-elevation persistence
pp. 1557-1569(13)
Authors: RANDIN, CHRISTOPHE F.; ENGLER, ROBIN; NORMAND, SIGNE; ZAPPA, MASSIMILIANO; ZIMMERMANN, NIKLAUS E.; PEARMAN, PETER B.; VITTOZ, PASCAL; THUILLER, WILFRIED; GUISAN, ANTOINE

Treeline shifts in the Ural mountains affect soil organic matter dynamics
pp. 1570-1583(14)
Authors: KAMMER, ADRIAN; HAGEDORN, FRANK; SHEVCHENKO, ILYA; LEIFELD, JENS; GUGGENBERGER, GEORG; GORYACHEVA, TAMARA; RIGLING, ANDREAS; MOISEEV, PAVEL

Soil organic matter dynamics during 80 years of reforestation of tropical pastures
pp. 1584-1597(14)
Authors: MARIN-SPIOTTA, ERIKA; SILVER, WHENDEE L.; SWANSTON, CHRISTOPHER W.; OSTERTAG, REBECCA

How far do experimentally elevated CO₂ levels reach into the surrounding? - An example using the ¹³C label of soil organic matter as an archive
pp. 1598-1602(5)
Authors: HEIM, ALEXANDER; MOSER, NINA; BLUM, HERBERT; SCHMIDT, MICHAEL W. I.

Stimulation of microbial extracellular enzyme activities by elevated CO₂ depends on soil aggregate size
pp. 1603-1614(12)
Authors: DORODNIKOV, MAXIM; BLAGODATSKAYA, EVGENIA; BLAGODATSKY, SERGEY; MARHAN, SVEN; FANGMEIER, ANDREAS; KUZYAKOV, YAKOV