High-Temperature Tolerance by the Endangered Mexican Mayflower Orchid, <i>Laelia Speciosa</i>

Gudiño, Whaleeha; Ávila-Díaz, Irene; Oyama, Ken; la, Erick Barrera de

doi:10.1177/194008291500800408

Cited by 4 publications

(3 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For L. speciosa, we species will be severely affected. Climate change is likely to affect the metabolism, phenology and morphology of the species and will transpose their distribution ranges towards higher elevations 34,[82][83][84] .…”

Section: Discussionmentioning

confidence: 99%

Distribution and conservation of species is misestimated if biotic interactions are ignored: the case of the orchid Laelia speciosa

Flores-Tolentino

García‐Valdés

Sáenz‐Romero

et al. 2020

Sci Rep

Self Cite

View full text Add to dashboard Cite

are unimportant in the determination of the species geographic ranges 8-10. However, several studies have demonstrated that the inclusion of biotic interactions in ENMs improves the performance of these models, both at local and regional scales 1,9,11-13. Epiphyte plants are a group that exemplifies the importance of biotic interactions. Such species establish and complete their entire life cycle on the bark of trees, and therefore the distribution of their host tree species strongly influence the distribution of these plants 8,14. However, despite the essential role that biotic interactions play in determining the distribution of some species, very little is known about the functioning of these ecological relationships 5,8,15. Moreover, the importance of the interactions that occur among species at the macro-scale is still subject of debate 8,16. It is expected that climate change will modify the range of an important number of species 17-20 , which may modify the composition of local communities, and may create transient communities that could be dominated by generalists species 21-23. To understand the possible effects of climate change on species distributions and ecosystem relationships, and to promote biodiversity conservation, it is essential to consider all the important drivers of the distribution of species when projecting future changes 24. For species that are highly dependent on biotic interactions, it is necessary to understand the effect of these interactions on their distributions 25,26. For example, currently interacting species may no longer occupy the same areas in the future as a result of climate change, because they could migrate at either different speeds or directions 26-28. Some biotic interactions, such as predation, competition and mutualism, are especially important for the maintenance of biodiversity 29,30 , and they can be decisive in determining the response of interacting species to climate change 11. Biotic interactions are key for evolutionary and ecological processes and mediate the responses of some species to climate 21. Similarly, climate can affect the direction, frequency and intensity of the interactions. Thus, understanding the complexity of the relationship between climate and biotic interactions is essential in order to predict the future habitat distribution of some species, especially those strongly dependent on these interactions. The establishment and abundance of epiphytic plants is largely determined by the microclimatic conditions provided by their host tree, like a protecting shadow and support well above the ground 31,32. This host-guest relationship therefore largely determines the distribution of these epiphyte species 32. Future changes in the distribution of host species due to climate change may thus act to reduce the distribution of epiphytes 11,33. Moreover, these species live in tropical forests, a habitat under particular threat due to changes in both climate and land use 34. Finally, these species are very sensitive to variations in temperature and pr...

show abstract

Section: Discussionmentioning

confidence: 99%

Distribution and conservation of species is misestimated if biotic interactions are ignored: the case of the orchid Laelia speciosa

Flores-Tolentino

García‐Valdés

Sáenz‐Romero

et al. 2020

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…Although adult orchid individuals show high-temperature tolerance, and increasing plant age leads to higher tolerance to environmental stress in terms of photosynthetic quantum yield (Gudiño et al, 2015), in species with contrasting photosynthesis rates, such as Limodorum L., Cephalanthera Rich. and Dactylorhiza (Serafini et al, 2007), increasing temperature induces secondary effects that can be more significant for orchid lifespan.…”

Section: Climate Change Effectsmentioning

confidence: 99%

Pollen viability of Euro‐Mediterranean orchids under different storage conditions: The possible effects of climate change

2020

View full text Add to dashboard Cite

show abstract

“…Nevertheless, the adaptation of juvenile plants passing through in vitro ex vitro stress barrier, including structural adaptation and antioxidant system response was studied on a narrow range of objects, as evidenced by the few references in the scientific literature (Buiun, 2013;Gudiño et al, 2015;Torres et al, 2006;Torres & Sanabria, 2011).…”

Section: Introductionmentioning

confidence: 99%

Structural Adaptation and Antioxidant Response of Guarianthe bowringiana (O’Brien) Dressler & W. E. Higgins (Orchidaceae Juss.) Seedlings During Ex Vitro Acclimatization

et al. 2021

View full text Add to dashboard Cite

Guarianthe bowringiana is one of the oldest samples cultivated at NBG’s orchid unit glasshouses since 1970s. An efficient protocol for asymbiotic in vitro seed germination of G. bowringiana has previously been established. Given that acclimatization is a crucial step in micropropagation, this study assesses the structural adaptation and antioxidant response of G. bowringiana seedlings during ex vitro acclimatization to ex vitro conditions. The leaf surface micromorphology of the G. bowringiana juvenile plants propagated in vitro from seeds as well as the leaves of adult plants cultivated in glasshouse were analyzed using scanning electron microscopy. The levels of lipid peroxidation (TBARS level), superoxide dismutase (SOD) activity, and the photosynthetic activity were monitored for seven days from the transfer of seedlings from the in vitro cultivation vessels as they are markers indicating the response of the leaves of in vitro propagated G. bowringiana plants to oxidative stress during the early stages of acclimatization to ex vitro conditions. During the initial 2 days of the monitored acclimatization period (0–7 days), the level of photosynthetic pigments (chlorophyll a , b , and carotenoid content) increased, followed by an insignificant increase during the successive period (by the seventh day) of acclimatization. At the same time, the level of the tested antioxidant enzyme (SOD) exhibited an increasing trend throughout the acclimatization period. The SOD activities in the leaves of G. bowringiana seedlings were significantly affected when they were transferred from in vitro to ex vitro conditions due to drought stress. Thus, it was revealed that in the early stages of acclimatizing to the altered environments, G. bowringiana seedlings exhibited a rapid increase in photosynthetic pigments, superoxide dismutase activity, and lipid peroxidation levels after being transferred to ex vitro conditions. Comparison of the leaf micromorphologies of G. bowringiana plants grown under in vitro and those grown under ex vitro conditions revealed that leaf development had undergone significant changes during acclimatization to the altered conditions. In vitro to ex vitro transfer leads to a transient decrease in photosynthetic parameters.

show abstract

High-Temperature Tolerance by the Endangered Mexican Mayflower Orchid, Laelia Speciosa

Cited by 4 publications

References 24 publications

Distribution and conservation of species is misestimated if biotic interactions are ignored: the case of the orchid Laelia speciosa

Distribution and conservation of species is misestimated if biotic interactions are ignored: the case of the orchid Laelia speciosa

Pollen viability of Euro‐Mediterranean orchids under different storage conditions: The possible effects of climate change

Structural Adaptation and Antioxidant Response of Guarianthe bowringiana (O’Brien) Dressler & W. E. Higgins (Orchidaceae Juss.) Seedlings During Ex Vitro Acclimatization

Contact Info

Product

Resources

About