Sandner, Tobias Dr.
Informationen
- Dr. Tobias Sandner
-
Funktion
Wissenschaftlicher MitarbeiterDienststelle
Interdisziplinäres Forschungszentrum (IFZ)
Institut für Pflanzenökologie
Heinrich-Buff-Ring 26
35392 Gießen
Bereich E
Raum B427Sprechzeiten
Nach VereinbarungTelefon
+49 (641) 99-35313
Fax
+49 (641) 99-35309Email
Tobias.Sandner
Projekte
Curriculum Vitae
- Curriculum Vitae
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CURRICULUM VITAE
07/2023 – 08/2024
Werkvertrag in der Biogeographie (Prof. Miehe), Universität Marburg, zur
Analyse von Vegetationsaufnahmen aus Tibet
10/2023 – 05/2024Wissenschaftlicher Mitarbeiter (50 %) zur Lehrvertretung in der AG
Pflanzenökologie (Prof. Opgenoorth), Universität Marburg
03/2016 – 09/2023Wissenschaftlicher Mitarbeiter (Postdoc) bei Prof. Matthies in der AG
Pflanzenökologie, Universität Marburg.
2010, 2014, 2019Unterbrechung der Arbeit für je knapp ½ Jahr in Elternzeit.
2009 – 2016Wissenschaftlicher Mitarbeiter in der AG Pflanzenökologie, Universität
Marburg. Währenddessen Promotion bei Prof/ Matthies zum Thema. “The
effects of inbreeding and stress on plant performance“Ausbildung
2008 – 2009
Diplomarbeit in der Pflanzenökologie (Prof. Matthies) mit dem Thema
“Effects of inbreeding and outbreeding on the reproductive success of the
two rare plant species Prunella grandiflora (Lamiaceae) and Cynoglossum
officinale (Boraginaceae)”/
Abschluss mit Auszeichnung
2006 – 2007Zwei Semester Auslandsstudium (Costa Rica), gefördert vom DAAD
2004 – 2009Förderung durch die Studienstiftung des Deutschen Volkes
2004Vordiplom Biologie
2002 – 2009Studium an der Philipps-Universität Marburg
Fächer: Biologie (Naturschutz, Ökologie, Botanik) und Geographie
Publikationen
- Publikationen
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PUBLICATIONS
Published / Erschienen (Peer review)
444 citations, h-index = 10 (google scholar, Stand 28.10.24).
(21) Sandner, T.M., Brand, M., Hickler, M., Matthies, D. (2024): Local adaptation of a generalist hemiparasitic
plant to one of its potential host plants. Oikos e10330.(20) Kozlov, M.V., Zverev, V., Sandner, T.M., van Nieukerken, E.J. & Zvereva, E.L. (2023): Poleward
increase in feeding efficiency of leafminer Stigmella lapponica (Lepidoptera: Nepticulidae) in a latitudinal
gradient crossing a boreal forest zone. Insect Science 30: 857–866.(19) Ensslin, A., Sandner, T.M. & Godefroid (2023): Does the reduction of seed dormancy during ex
situ cultivation affect the germination and establishment of plants reintroduced into the wild?
Journal of Applied Ecology 60: 685–695.(18) Ludewig, K., Klinger, Y. P., Donath, T. W., Bärmann, L., Eichberg, C/, [0\, Sandner, T.M., [0\,
Żołnierz, L/ & Eckstein, R/ L/ (2022). Phenology and morphology of the invasive legume Lupinus
polyphyllus along a latitudinal gradient in Europe. Neobiota 78: 185–206.(17) Sandner, T.M., Dotzert, A., Gerken, F. & Matthies, D. (2022): Inbreeding depression changes with
stress response over time in flooded Mimulus guttatus. Perspectives in Plant Ecology, Evolution and
Systematics.(16) Sandner, T.M., Gemeinholzer, B., Lemmer, J., Matthies, D. & Ensslin, A. (2022): Continuous
inbreeding affects genetic variation, phenology and reproductive strategy in ex situ cultivated
Digitalis lutea. American Journal of Botany 109: 1545–1559. [Highlighted article of issue](15) Sandner, T.M., Schoppan, L. & Matthies, D. (2022): Seedlings of a hemiparasite recognize legumes,
but do not distinguish good from poor host species. Folia Geobotanica 57:117–126.(14) Sandner, T.M., Matthies, D. & Waller, D.M. (2021): Stresses affect inbreeding depression in
complex ways: Disentangling stress-specific genetic effects from effects of initial size in plants.
Heredity 127: 347–356.(13) Rehling, F., Sandner, T.M. & Matthies, D. (2021): Biomass partitioning in response to intraspecific
competition depends on nutrients and species characteristics: a study of 43 plant species. Journal
of Ecology 109: 2219–2233.(12) Sandner, T.M. (2020): Inbreeding and competition, but not abiotic stresses, increase fluctuating
asymmetry of Mimulus guttatus flowers. Biological Journal of the Linnean Society 130: 410–418.(11) Korell, L.*, Sandner, T.M.*, Matthies, D. & Ludewig, K. (2020): Effects of drought and N-level on
the interactions of the root-hemiparasite Rhinanthus alectorolophus with a combination of three
hosts. Plant Biology 22: 84–92. (*KL and TMS share first authorship)(10) Kozlov, M.V., Zverev, V. & Sandner, T.M. (2019): Photosynthetic efficiency is higher in asymmetric
(9) Rehling, F., Matthies, D. & Sandner, T.M. (2019): Responses of a legume to inbreeding and the
intensity of novel and familiar stresses. Ecology and Evolution 9: 1255–1267.(8) Sandner, T.M., Zverev, V. & Kozlov, M.V. (2019): Can the use of landmarks improve the suitability
of fluctuating asymmetry in plant leaves as an indicator of stress? Ecological Indicators 97: 457–
465.(7) Sandner, T.M. & Matthies, D. (2018b): Multiple choice: hemiparasite performance in multi-species
mixtures. Oikos 127: 1291–1303.(6) Sandner, T.M. van Braak, J.L. & Matthies, D. (2018): Transgenerational plasticity in Silene vulgaris
in response to three types of stress. Plant Biology 20: 751–758.(5) Sandner, T.M. & Matthies, D. (2018a): Inbreeding limits responses to environmental stress in Silene
vulgaris. Environmental and Experimental Botany 147: 86–94.(4) Sandner, T.M. & Matthies, D. (2017b): Fluctuating asymmetry of leaves is a poor indicator of
environmental stress and genetic stress by inbreeding in Silene vulgaris. Ecological Indicators 79:
247–253.(3) Sandner, T.M. & Matthies, D. (2017a): Interactions of inbreeding and stress by poor host quality in
a root hemiparasite. Annals of Botany 119: 143–150.(2) Sandner, T.M. & Matthies, D. (2016): The effects of stress intensity and stress type on inbreeding
depression in Silene vulgaris. Evolution 70: 1225–1238.
(x) Sandner, T.M. (2014): Auswirkungen von Inzucht und Umweltstress auf Pflanzen. In: Feit, U. & Korn,
H. (Hrsg.): Treffpunkt Biologische Vielfalt XIII. BfN-Skripten 370: 95–100.(1) Enßlin, A., Sandner, T.M. & Matthies, D. (2011): Consequences of ex situ cultivation of plants:
Genetic diversity, fitness and adaptation of the monocarpic Cynoglossum officinale L. in botanic
gardens. Biological Conservation 144: 272–278.