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RESEARCH ARTICLE
Contents Vol 27(8)

Differences in germination response to smoke and temperature cues in ‘pyrophyte’ and ‘pyrofuge’ forms of Erica coccinea (Ericaceae)

Jenny Leonard A C , Adam G. West A and Fernando Ojeda B
+ Author Affiliations
- Author Affiliations

A Department Biological Sciences, Private Bag X3, Rondebosch 7701, Cape Town, South Africa.

B Departmento de Biología – Instituto de Investigaciones Vitivinícolas y Agroalimentarias (IVAGRO), Universidad de Cadiz, Campus Río San Pedro, E-11510 Puerto Real, Spain.

C Corresponding author. Email: jennymleonard@gmail.com

International Journal of Wildland Fire 27(8) 562-568 https://doi.org/10.1071/WF17161
Submitted: 24 January 2017  Accepted: 13 June 2018   Published: 4 July 2018

Abstract

Many plants in fire-prone ecosystems produce seeds that are cued to germinate after fire. However, fire is not uniform in the landscape, and there are often refugia where fire does not reach, like rocky outcrops or moist valleys. Erica coccinea, a heath shrub from the South African fynbos, has two distinct pyrophyte forms (a resprouter and a seeder) as well as a ‘pyrofuge’ form that only occurs in fire refugia. We measured germination response to smoke and incubation temperature in seeds from pyrophyte (resprouter and seeder) and pyrofuge populations to determine whether these forms responded differently to a fire-cue (smoke) and a general germination cue (temperature). We found that seeds from pyrofuge plants had high germination success (80.9–92.0%) at the lowest incubation temperature (15/8°C 12h day/night cycle) regardless of smoke exposure. In contrast, seeds from pyrophytes (resprouters and seeders) responded strongly to the smoke cue (71.2–95.0%) and were not as limited by temperature. These results show that fire presence and absence is driving divergence of the primary germination cue in Erica coccinea. Given the patchiness of many natural fire regimes worldwide, we expect there may be pyrofuge populations exhibiting a similar divergence of traits in other species and other fire-prone ecosystems.

Additional keywords: fire refugia, fire-prone ecosystems, intraspecies trait variation, resprouter, seeder.


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