Evaluating a DOE screen to reduce hyperhydricity in the threatened plant, Cycladenia humilis var. jonesii

Evaluating a DOE screen to reduce hyperhydricity in the threatened plant, Cycladenia humilis var. jonesii

In vitro methods for propagation and preservation are critical when seed banking is not an option for the ex situ conservation of an endangered species. Such methods rely on the ability to maintain normal growth for the ultimate goal of producing plants. Previous studies revealed that the threatened...

Full description

Saved in:
Bibliographic Details
Published in:In vitro cellular & developmental biology. Plant Vol. 56; no. 2; pp. 215 - 229
Main Authors: Pence, Valerie C., Finke, Linda R., Niedz, Randall P.
Format: Journal Article
Language:English
Published: New York Springer Science + Business Media, LLC 01-04-2020
Springer US
Springer Nature B.V
Subjects:
Biomedical and Life Sciences
Calcium chloride
Cell Biology
Conservation
Cycladenia humilis
Design factors
Design of experiments
Developmental Biology
Endangered & extinct species
Endangered species
Fractional factorial design
Gelation
Genotype & phenotype
Humidity
In vitro methods and tests
Life Sciences
Nitrogen
Optimization
Phenotypes
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant propagation
Plant Sciences
PLANT TISSUE CULTURE
Preservation
Propagation
Rare species
Shoots
Studies
Wildlife conservation
Venting
Endangered species
Design of experiments
Hyperhydricity
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In vitro methods for propagation and preservation are critical when seed banking is not an option for the ex situ conservation of an endangered species. Such methods rely on the ability to maintain normal growth for the ultimate goal of producing plants. Previous studies revealed that the threatened Cycladenia humilis var. jonesii can exhibit extreme hyperhydricity when cultured in vitro, but that this phenotype can be largely normalized by venting of the cultures. A design of experiments (DOE) approach was used to investigate factors contributing to hyperhydricity in this species. Using a 6-factor fractional factorial design, the effects of nitrogen, CaCl₂, BAP, gelling agent, and the presence of venting on the phenotype were tested. Venting was the strongest driver decreasing hyperhydricity, but gelling agent and other factors had significant effects, depending on the response measured. A revised medium was then designed and compared with the original maintenance medium through 2-3 subcultures. Venting was again the strongest driver decreasing hyperhydricity, but the revised medium also significantly affected some responses, even in the absence of venting. The revised medium was not optimal, as shoots became progressively smaller with each transfer, but despite their size, hyperhydricity decreased. These results demonstrate the usefulness of DOE for simultaneous testing of multiple factors, but also the need for follow-up optimization experiments. DOE can be particularly useful in working with rare species. By making efficient use of limited resources, it can facilitate the development of in vitro propagation protocols for such species and help ensure their conservation.
ISSN:1054-5476
1475-2689
DOI:10.1007/s11627-019-10038-y