Distribution of biomass dynamics in relation to tree size in forests across the world

Publikace

PIPONIOT C., ANDERSON-TEIXEIRA K.J., DAVIES S.J., ALLEN D., BOURG N.A., BURSLEM D.F.R.P., CÁRDENAS D., CHANG-YANG C.-H., CHUYONG G., CORDELL S., DATTARAJA H.S., DUQUE Á., EDIRIWEERA S., EWANGO C., EZEDIN Z., FILIP J., GIARDINA C.P., HOWE R., HSIEH C.-F., HUBBELL S.P., INMAN-NARAHARI F.M., ITOH A., JANIK D., KENFACK D., KRÁL K., LUTZ J.A., MAKANA J.-R., MCMAHON S.M., MCSHEA W., MI X., BT. MOHAMAD M., NOVOTNÝ V., O'BRIEN M.J., OSTERTAG R., PARKER G., PÉREZ R., REN H., REYNOLDS G., MD SABRI M.D., SACK L., SHRINGI A., SU S.-H., SUKUMAR R., SUN I.-F., SURESH H.S., THOMAS D.W., THOMPSON J., URIARTE M., VANDERMEER J., WANG Y., WARE I.M., WEIBLEN G.D., WHITFELD T.J.S., WOLF A., YAO T.L., YU M., YUAN Z., ZIMMERMAN J.K., ZULETA D., MULLER-LANDAU H.C. 2022. Distribution of biomass dynamics in relation to tree size in forests across the world. New Phytologist. [Dostupné online ].

allodb: An R package for biomass estimation at globally distributed extratropical forest plots

Publikace

GONZALEZ-AKRE E., PIPONIOT C., LEPORE M., HERRMANN V., LUTZ J.A., BALTZER J.L., DICK C.W., GILBERT G.S., HE F.L., HEYM M., HUERTA A.I., JANSEN P.A., JOHNSON D.J., KNAPP N., KRÁL K., LIN D.M., MALHI Y., MCMAHON S.M., MYERS J.A., ORWIG D., RODRIGUEZ-HERNANDEZ D.I., RUSSO S.E., SHUE J., WANG X.G., WOLF A., YANG T.H., DAVIES S.J., ANDERSON-TEIXEIRA K.J. 2022. allodb: An R package for biomass estimation at globally distributed extratropical forest plots. Methods in Ecology and Evolution 13, 330-338. [Dostupné online ].

Aboveground biomass density models for NASA’s Global Ecosystem Dynamics Investigation (GEDI) lidar mission

Publikace

DUNCANSON L., KELLNER J., ARMSTON J., DUBAYAH R., MINOR D.M., HANCOCK S., HEALEY S.P., PATTERSON P.L., SAARELA S., MARSELIS S., SILVA C.E., BRUENING J., GOETZ S.J., TANG H., HOFTON M., BLAIR B., LUTHCKE S., FATOYINBO L., ABERNETHY K., ALONSO A., ANDERSEN H.-E., APLIN P., BAKER T.R., BARBIER N., BASTIN J.F., BIBER P., BOECKX P., BOGAERT J., BOSCHETTI L., BOUCHER P.B., BOYD D.S., BURSLEM D.F.R.P., CALVO-RODRIGUEZ S., CHAVE J., CHAZDON R.L., CLARK D.B., CLARK D.A., COHEN W.B., COOMES D.A., CORONA P., CUSHMAN K.C., CUTLER M.E.J., DALLING J.W., DALPONTE M., DASH J., DE-MIGUEL S., DENG S., ELLIS P.W., ERASMUS B., FEKETY P.A., FERNANDEZ-LANDA A., FERRAZ A., FISCHER R., FISHER A.G., GARCÍA-ABRIL A., GOBAKKEN T., HACKER J.M., HEURICH M., HILL R.A., HOPKINSON C., HUANG H., HUBBELL S.P., HUDAK A.T., HUTH A., IMBACH B., JEFFERY K.J., KATOH M., KEARSLEY E., KENFACK D., KLJUN N., KNAPP N., KRÁL K., KRŮČEK M., LABRIÈRE N., LEWIS S.L., LONGO M., LUCAS R.M., MAIN R., MANZANERA J.A., MARTÍNEZ R.V., MATHIEU R., MEMIAGHE H., MEYER V., MENDOZA A.M., MONERRIS A., MONTESANO P., MORSDORF F., NÆSSET E., NAIDOO L., NILUS R., O’BRIEN M., ORWIG D.A., PAPATHANASSIOU K., PARKER G., PHILIPSON C., PHILLIPS O.,L., PISEK J., POULSEN J.R., PRETZSCH H., RÜDIGER C., SAATCHI S., SANCHEZ-AZOFEIFA A., SANCHEZ-LOPEZ N., SCHOLES R., SILVA C.,A., SIMARD M., SKIDMORE A., STEREŃCZAK K., TANASE M., TORRESAN C., VALBUENA R., VERBEECK H., VRŠKA T., WESSELS K., WHITE J.C., WHITE L.J.T., ZAHABU E., ZGRAGGEN C. 2022. Aboveground biomass density models for NASA’s Global Ecosystem Dynamics Investigation (GEDI) lidar mission. Remote Sensing of Environment 270, 112845. [Dostupné online ].

Forest dieback in a protected area triggers the return of the primeval forest specialist Peltis grossa (Coleoptera, Trogossitidae)

Publikace

BUSSE A., CIZEK L., ČÍŽKOVÁ P., DRAG L., DVORAK V., FOIT J., HEURICH M., HUBENÝ P., KAŠÁK J., KITTLER F., KOZEL P., LETTENMAIER L., NIGL L., PROCHÁZKA J., ROTHACHER J., STRAUBINGER C., THORN S., MÜLLER J. 2022. Forest dieback in a protected area triggers the return of the primeval forest specialist Peltis grossa (Coleoptera, Trogossitidae). Conservation Science and Practice, Volume 4, Issue 2. [Dostupné online ].

Joint effects of climate, tree size, and year on annual tree growth derived from tree-ring records of ten globally distributed forests

Publikace

ANDERSON-TEIXEIRA K.J., HERRMANN V., ROLLINSON C.R., GONZALEZ B., GONZALEZ-AKRE E.B., PEDERSON N., ALEXANDER M.R., ALLEN C.D., ALFARO-SÁNCHEZ R., AWADA T., BALTZER J.L., BAKER P.J., BIRCH J.D., BUNYAVEJCHEWIN S., CHERUBINI P., DAVIES S.J., DOW C., HELCOSKI1 R., KAŠPAR J., LUTZ J.A., MARGOLIS E.Q., MAXWELL J.T., MCMAHON S.M., PIPONIOT C., RUSSO S.E., ŠAMONIL P., SNIDERHAN A.E., TEPLEY A.J., VAŠÍČKOVÁ I., VLAM M., ZUIDEMA P.A. 2022. Joint effects of climate, tree size, and year on annual tree growth derived from tree-ring records of ten globally distributed forests. Global Change Biology 28: 245–266. [Dostupné online ].

Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients

Publikace

QIU T., ARAVENA M.-C., ASCOLI D., BERGERON Y., BOGDZIEWICZ M., BOIVIN T., BONAL R., CAIGNARD T., CAILLERET M., CALAMA R., CALDERON S.D., CAMARERO J.J., CHANG-YANG C.-H., CHAVE J., CIANUCCI F., COURBAUD B., CUTINI A., DAS A.J., DELPIERRE N., DELZON S., DIETZE M., DORMONT L., ESPELTA J.M., FAHEY T.J., FARFAN-RIOS W., FRANKLIN J.F., GEHRING C. A., GILBERT G.S., GRATZER G., GREENBERG C.H., GUIGNABERT A., GUO Q., HACKET-PAIN A., HAMPE A., HAN Q., HOLÍK J., HOSHIZAKI K., IBANEZ I., JOHNSTONE J.L., JOURNE V., KITZBERGER T., KNOPS J.M.H., KUNSTLER G., KUROKAWA H., LAGEARD J.G.A., LAMONTAGNE J. M., LEFEVRE F., LEININGE T., LIMOUSIN J.-M., LUTZ J.A., MACIAS D., MARELL A., MCINTIRE E.J.B., MOORE C.M., MORAN E., MOTTA R., MYERS J.A, NAGEL T.A., NAOE S., NOGUCHI M., OGURO M., PARMENTER R., PEARSE I.S., PEREZ-RAMOS I.M., PIECHNIK L., PODGORSKI T., POULSEN J., REDMOND M. D., REID C.D., RODMAN K.C., RODRIGUEZ-SANCHEZ F., ŠAMONIL P., SANGUINETTI J.D., SCHER C.L., SEGET B., SHARMA S., SHIBATA M., SILMAN M., STEELE M.A., STEPHENSON N.L., STRAUB J.N., SUTTON S., SWENSON J.J., SWIFT M., THOMAS P.A., URIARTE M., VACCHIANO G., WHIPPLE A.V., WHITHAM T.G., WION A.P., WRIGHT S. J., ZHU K., ZIMMERMAN J.K., ZYWIEC M., CLARK J.S. 2023. Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients. Nature Plants 9, 1044–1056. [Dostupné online ].