The Challenges of Growing Orchids from Seeds for Conservation: An Assessment of Asymbiotic Techniques

Overview

Journal Appl Plant Sci

Date 2022 Oct 19

PMID 36258786

Authors

Devani Jolman

Martin I Batalla

Alexis Hungerford

Pryce Norwood

Noah Tait

Lisa E Wallace

Affiliations

Soon will be listed here.

Abstract

Lewis Knudson first successfully germinated orchid seeds asymbiotically on artificial medium in 1922. While many orchid species have since been grown asymbiotically, the tremendous variation in how species respond to artificial medium and growth conditions ex situ has also become apparent in the past century. In this study, we reviewed published journal articles on asymbiotic orchid seed germination to provide a summary of techniques used and to evaluate if these differ between terrestrial and epiphytic species, to identify areas where additional research is needed, and to evaluate whether asymbiotic germination could be used more often in ex situ conservation. We found articles reporting successful asymbiotic germination of 270 species and 20 cultivars across Orchidaceae. Researchers often used different techniques with epiphytic versus terrestrial species, but species-specific responses to growth media and conditions were common, indicating that individualized protocols will be necessary for most species. The widespread success in generating seedlings on artificial media suggests that asymbiotic techniques should be another tool for the conservation of rare orchid species. Further advances are needed in understanding how to introduce mycorrhizae to axenically grown orchids and to maximize the viability of seedlings reintroduced into natural habitats to fully utilize these methods for conservation.

Citing Articles

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Philpott M, Pence V, Bassuner B, Clayton A, Coffey E, Downing J Appl Plant Sci. 2022; 10(5):e11495.

PMID: 36258792 PMC: 9575053. DOI: 10.1002/aps3.11495.

The challenges of growing orchids from seeds for conservation: An assessment of asymbiotic techniques.

Jolman D, Batalla M, Hungerford A, Norwood P, Tait N, Wallace L Appl Plant Sci. 2022; 10(5):e11496.

PMID: 36258786 PMC: 9575117. DOI: 10.1002/aps3.11496.

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