Valerie C. Pence scite author profile

This chapter discusses desiccation tolerance in bryophytes and vascular plants. For bryophytes,the topics covered include: desiccation time and recovery time; the effect of intensity of desiccation; effects of temperature; events on rehydration; drying rate and drought hardening; constitutive and induced tolerance; processes and cireteria of recovery. For vascular plants, the topics covered include: ecological and morphological adaptations; the effect of the intensity of desiccation; morphological and cytological changes that occur with drying; rehydration and recovery; vegetative propagules.

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Biodiversity conservation and conservation biotechnology tools

Reed

Sarasan

Kane

et al. 2011

In Vitro Cell.Dev.Biol.-Plant

170

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This special issue is dedicated to the in vitro tools and methods used to conserve the genetic diversity of rare and threatened plant species from around the world. Species that are on the brink of extinction because of the rapid loss of genetic diversity and habitat come mainly from resource-poor areas of the world and from global biodiversity hotspots and island countries. These species are unique because they are endemic, and only a few small populations or sometimes only a few individuals remain in the wild. Therefore, the challenges to support conservation by in vitro measures are many and varied. The editors of this invited issue solicited papers from experts from Asia, Africa, Europe, Australia, and North and South America. This compilation of articles describes the efforts in these diverse regions toward saving plants from extinction, and details the direct application of in vitro and cryopreservation methods. In addition, these contributions provide guidance on propagation of rare plants, including techniques for large-scale propagation, storage, and reintroduction. The in vitro techniques for conserving plant biodiversity include shoot apical or axillary-meristem-based micropropagation, somatic embryogenesis, cell culture technologies and embryo rescue techniques, as well as a range of in vitro cold storage and cryopreservation protocols, and they are discussed in depth in this issue.

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Cryobiotechnologies: Tools for expanding long-term ex situ conservation to all plant species

Pence

Ballesteros

Walters³

et al. 2020

Biological Conservation

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Evaluating costs for the in vitro propagation and preservation of endangered plants

Pence

2010

In Vitro Cell.Dev.Biol.-Plant

123

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In vitro methods provide opportunities for propagating and preserving endangered plant species when seed-based methods are not adequate. Such species include those that produce few or no seeds, as well as species with recalcitrant seeds. Tissue culture propagation methods can be used to produce such plants for reintroduction, research, education, display, and commerce. They can also be the basis for tissue banking as a way to preserve genetic diversity when seeds cannot be banked. With some recalcitrant species, embryo banking, a method which also utilizes in vitro culture for recovery germination, is possible. The number of endangered species that will require in vitro methods is estimated to be at least 5,000 worldwide. Further information is needed to identify these species, and the ongoing collection of information into databases on endangered species and recalcitrant species will help provide this. The costs of these methods are higher than for traditional propagation and preservation, but they may be necessary for species under higher threat. The multiplication rate of a culture, as well as the rates of rooting and acclimatization, has a major effect on the number of transfers needed for producing plants or tissue for banking, and improvements that will increase the efficiency of these steps can help lower costs. Further research into factors affecting the growth of tissues in vitro, as well as coordination of efforts among institutions with infrastructure for in vitro work, should facilitate the application of in vitro methods to the endangered species that cannot be propagated or preserved using seeds.

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Initiation and Development of Asexual Embryos of Theobroma cacao L. in vitro

Pence

Hasegawa

Janick

1980

Zeitschrift für Pflanzenphysiologie

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Valerie C. Pence

Vegetative tissues: bryophytes, vascular resurrection plants and vegetative propagules.

Biodiversity conservation and conservation biotechnology tools

Cryobiotechnologies: Tools for expanding long-term ex situ conservation to all plant species

Evaluating costs for the in vitro propagation and preservation of endangered plants

Initiation and Development of Asexual Embryos of Theobroma cacao L. in vitro

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