No evidence for early inbreeding depression in planted seedlings of Eucalyptus caesia, an anciently fragmented tree endemic on granite outcrops-Reference-Cited by-同舟云学术

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No evidence for early inbreeding depression in planted seedlings of Eucalyptus caesia, an anciently fragmented tree endemic on granite outcrops

Published:2019-10-29 Issue:12 Volume:220 Page:1101-1108
ISSN:1385-0237
Container-title:Plant Ecology
language:en
Short-container-title:Plant Ecol

Author:

Bezemer Nicole^ORCID,Krauss Siegfried L.,Roberts David G.

Funder

Australian Research Council

Holsworth Wildlife Research Endowment

Ecological Society of Australia

Publisher

Springer Science and Business Media LLC

Subject

Plant Science,Ecology

Link

http://link.springer.com/content/pdf/10.1007/s11258-019-00978-1.pdf

Reference46 articles.

1. Barrett LG, He T, Lamont BB, Krauss SL (2005) Temporal patterns of genetic variation across a 9-year-old aerial seed bank of the shrub Banksia hookeriana (Proteaceae). Mol Ecol 14:4169–4179

2. Barrett S, Charlesworth D (1991) Effects of a change in the level of inbreeding on the genetic load. Nature 352:522

3. Bezemer N (2018) Wild seedlings of a tree endemic on granite outcrops show no evidence of inbreeding depression. Aust J Bot 66:39–47

4. Bezemer N, Krauss SL, Phillips RD, Roberts DG, Hopper SD (2016) Paternity analysis reveals wide pollen dispersal and high multiple paternity in a small isolated population of the bird-pollinated Eucalyptus caesia (Myrtaceae). Heredity 117:460–471

5. Bezemer N, Krauss SL, Roberts DG, Hopper SD (2019a) Conservation of old individual trees and small populations is integral to maintain species' genetic diversity of a historically fragmented woody perennial. Mol Ecol 28:3339–3357

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1. Reproductive characteristics, population genetics, and pairwise kinship inform strategic recovery of a plant species in a fragmented landscape;Conservation Science and Practice;2023-02-22

2. Embedding genetics experiments in restoration to guide plant choice for a degraded landscape with a changing climate;Ecological Management & Restoration;2021-12

3. Out of the OCBILs: new hypotheses for the evolution, ecology and conservation of the eucalypts;Biological Journal of the Linnean Society;2021-01-25

4. OCBIL theory examined: reassessing evolution, ecology and conservation in the world’s ancient, climatically buffered and infertile landscapes;Biological Journal of the Linnean Society;2021-01-25

5. Optimising the conservation of genetic diversity of the last remaining population of a critically endangered shrub;AoB PLANTS;2021-01-09

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