Thermal niche for seed germination of Xyris species from Brazilian montane vegetation: Implications for climate change

Thermal niche for seed germination of Xyris species from Brazilian montane vegetation: Implications for climate change

Understanding how climate change will affect regeneration from seeds is important for developing conservation strategies. We evaluated seed germination requirements for sympatric species of Xyris from montane rupestrian grasslands (campo rupestre) in Brazil to determine their thermal niche and therm...

Full description

Saved in:
Bibliographic Details
Published in:Plant species biology Vol. 36; no. 2; pp. 284 - 294
Main Authors: Oliveira, Túlio G. S., Duarte, Alexandre A., Diamantino, Isabela P., Garcia, Queila S.
Format: Journal Article
Language:English
Published: Melbourne John Wiley & Sons Australia, Ltd 01-04-2021
Subjects:
campo rupestre
climate warming
temperature
thermal time
Xyridaceae
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Understanding how climate change will affect regeneration from seeds is important for developing conservation strategies. We evaluated seed germination requirements for sympatric species of Xyris from montane rupestrian grasslands (campo rupestre) in Brazil to determine their thermal niche and thermal requirements for seed germination. We also assessed whether projected temperature increases would affect seed germination of the species. Seed germination was evaluated at a wide range of constant temperatures (10–40°C) under light (12‐hr photoperiod) and dark conditions. Base temperatures (Tb) and thermal times for 50% germination (θ50) were calculated for three species. The effects of projected mean temperature increase on seed germination percentage and timing were evaluated. All species revealed an absolute light requirement for germination. Thermal germination niche breadth was greatest for X. asperula (15 to 35°C) and narrowest for X. seubertii (20 and 25°C). Base temperatures for X. asperula, X. pilosa and X. trachyphylla were 9.0, 12.8 and 11.1°C, respectively. In the scenario with the highest temperature increase (A2), the greatest reductions in seed germination are observed for X. pilosa and X. seubertii. The lowest projected temperature increase (2°C) was sufficient to decrease by 1 day the germination time of X. asperula and X. pilosa. Species of Xyris do not present a pattern for thermal germination niche and thermal requirements values, indicating that the effects of climate warming on the regeneration of these seeds will probably vary among species. Neotropical species of Xyris have different thermal requirements for seed germination. Sensitivity to climate change during germination varies among species.
Bibliography:Funding information
Fundação de Amparo à Pesquisa do Estado de Minas Gerais, Grant/Award Number: APQ‐01176‐14
ISSN:0913-557X
1442-1984
DOI:10.1111/1442-1984.12312