TY  - GEN
A1  - Rubey, Michael
A1  - Brune, Sascha
A1  - Heine, Christian
A1  - Davies, D. Rhodri
A1  - Williams, Simon E.
A1  - Müller, R. Dietmar
T1  - Global patterns in Earth’s dynamic topography since the Jurassic
BT  - the role of subducted slabs
T2  - Postprints der Universität Potsdam : Mathematisch Naturwissenschaftliche Reihe
N2  - We evaluate the spatial and temporal evolution of Earth's long-wavelength surface dynamic topography since the Jurassic using a series of high-resolution global mantle convection models. These models are Earth-like in terms of convective vigour, thermal structure, surface heat-flux and the geographic distribution of heterogeneity. The models generate a degree-2-dominated spectrum of dynamic topography with negative amplitudes above subducted slabs (i.e. circum-Pacific regions and southern Eurasia) and positive amplitudes elsewhere (i.e. Africa, north-western Eurasia and the central Pacific). Model predictions are compared with published observations and subsidence patterns from well data, both globally and for the Australian and southern African regions. We find that our models reproduce the long-wavelength component of these observations, although observed smaller-scale variations are not reproduced. We subsequently define "geodynamic rules" for how different surface tectonic settings are affected by mantle processes: (i) locations in the vicinity of a subduction zone show large negative dynamic topography amplitudes; (ii) regions far away from convergent margins feature long-term positive dynamic topography; and (iii) rapid variations in dynamic support occur along the margins of overriding plates (e.g. the western US) and at points located on a plate that rapidly approaches a subduction zone (e.g. India and the Arabia Peninsula). Our models provide a predictive quantitative framework linking mantle convection with plate tectonics and sedimentary basin evolution, thus improving our understanding of how subduction and mantle convection affect the spatio-temporal evolution of basin architecture.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 623 
KW  - spherical mantle convection
KW  - southern African plateau
KW  - vertical motion
KW  - sea-level
KW  - seismic tomography
KW  - models
KW  - surface
KW  - gravity
KW  - lithosphere
KW  - Australia
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-418241
SN  - 1866-8372
IS  - 623
SP  - 899
EP  - 919
ER  - 
TY  - JOUR
A1  - Maddock, Simon T.
A1  - Childerstone, Aaron
A1  - Fry, Bryan Grieg
A1  - Williams, David J.
A1  - Barlow, Axel
A1  - Wuester, Wolfgang
T1  - Multi-locus phylogeny and species delimitation of Australo-Papuan blacksnakes (Pseudechis Wagler, 1830: Elapidae: Serpentes)
JF  - Molecular phylogenetics and evolution
N2  - Genetic analyses of Australasian organisms have resulted in the identification of extensive cryptic diversity across the continent. The venomous elapid snakes are among the best-studied organismal groups in this region, but many knowledge gaps persist: for instance, despite their iconic status, the species-level diversity among Australo-Papuan blacksnakes (Pseudechis) has remained poorly understood due to the existence of a group of cryptic species within the P. australis species complex, collectively termed "pygmy mulga snakes". Using two mitochondrial and three nuclear loci we assess species boundaries within the genus using Bayesian species delimitation methods and reconstruct their phylogenetic history using multispecies coalescent approaches. Our analyses support the recognition of 10 species, including all of the currently described pygmy mulga snakes and one undescribed species from the Northern Territory of Australia. Phylogenetic relationships within the genus are broadly consistent with previous work, with the recognition of three major groups, the viviparous red-bellied black snake P. porphyriacus forming the sister species to two clades consisting of ovoviviparous species.
KW  - Australia
KW  - New Guinea
KW  - Molecular phylogenetics
KW  - BPP
KW  - Snakes
KW  - Multispecies coalescent
Y1  - 2017
U6  - https://doi.org/10.1016/j.ympev.2016.09.005
SN  - 1055-7903
SN  - 1095-9513
VL  - 107
SP  - 48
EP  - 55
PB  - Elsevier
CY  - San Diego
ER  - 
TY  - THES
A1  - Grimm-Seyfarth, Annegret
T1  - Effects of climate change on a reptile community in arid Australia
T1  - Auswirkungen von Klimawandel auf eine Reptiliengemeinschaft im ariden Australien
BT  - exploring mechanisms and processes in a hot, dry, and mysterious ecosystem
BT  - eine Untersuchung von Mechanismen und Prozessen in einem heißen, trockenen, und rätselhaften Ökosystem
N2  - Dies ist eine kumulative Dissertation, die drei Originalstudien umfasst (eine publiziert, eine in Revision, eine eingereicht; Stand Dezember 2017). Sie untersucht, wie Reptilienarten im ariden Australien auf verschiedene klimatische Parameter verschiedener räumlicher Skalen reagieren und analysiert dabei zwei mögliche zugrunde liegende Hauptmechanismen: Thermoregulatorisches Verhalten und zwischenartliche Wechselwirkungen. In dieser Dissertation wurden umfassende, individuenbasierte Felddaten verschiedener trophischer Ebenen kombiniert mit ausgewählten Feldexperimenten, statistischen Analysen, und Vorhersagemodellen. Die hier erkannten Mechanismen und Prozesse können nun genutzt werden, um mögliche Veränderungen der ariden Reptiliengesellschaft in der Zukunft vorherzusagen. Dieses Wissen wird dazu beitragen, dass unser Grundverständnis über die Konsequenzen des globalen Wandels verbessert und Biodiversitätsverlust in diesem anfälligen Ökosystem verhindert wird.
N2  - This is a cumulative dissertation comprising three original studies (one published, one in revision, one submitted; Effective December 2017) investigating how reptile species in arid Australia respond to various climatic parameters at different spatial scales and analysing the two potential main underlying mechanisms: thermoregulatory behaviour and species interactions. This dissertation combines extensive individual-based field data across trophic levels, selected field experiments, statistical analyses, and predictive modelling techniques. Mechanisms and processes detected in this dissertation can now be used to predict potential future changes in the community of arid-zone lizards. This knowledge will help improving our fundamental understanding of the consequences of global change and thereby prevent biodiversity loss in a vulnerable ecosystem.
KW  - Australien
KW  - Reptilien
KW  - Australia
KW  - reptiles
KW  - Populationsökologie
KW  - population ecology
KW  - Thermoregulationsverhalten
KW  - thermoregulatory behaviour
KW  - interspezifische Wechselwirkungen
KW  - interspecific interactions
KW  - Vorhersagemodelle
KW  - predictive modelling
KW  - Klimawandel
KW  - climate change
KW  - Wüste
KW  - desert
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-412655
ER  -