Testing the regeneration niche hypothesis with Gesneriaceae (tribe Sinningiae) in Brazil: Implications for the conservation of rare species

• Published in: Austral ecology Vol. 37; no. 1; pp. 125 - 133
• Main Authors: RANIERI, BERNARDO DOURADO, PEZZINI, FLÁVIA FONSECA, GARCIA, QUEILA SOUZA, CHAUTEMS, ALAIN, FRANÇA, MARCEL GIOVANNI COSTA
• Format: Journal Article
• Language: English
• Published: Melbourne, Australia Blackwell Publishing Asia 01.02.2012; Blackwell Publishing Ltd
• Subjects: Atlantic Forest; Brazil; Cerrado; Conservation; Endangered species; endemism; Environmental factors; Flowers & plants; Geographical distribution; Gesneriaceae; habitats; Hypothesis testing; microhabitat; Niches; Plant species; Rare species; rocky outcrop; Seed germination; seeds; Sinningia; temperature; threatened species; Wildlife conservation; Brazil
• ISSN: 1442-9985; 1442-9993
• DOI: 10.1111/j.1442-9993.2011.02254.x

The germination requirements of sexually reproducing plants are regulated by environmental factors such as temperature. Those factors acting at the germination phase are part of the regeneration niche, which is fundamental in the processes that contribute to habitat suitability and geographic distribution. We tested the hypothesis that rarity is associated with regeneration niche in three species of plants in the family Gesneriaceae (tribe Sinningieae), Sinningia rupicola (Mart.) Wiehler, Paliavana sericiflora Benth and Sinningia allagophylla (Mart.) Wiehler, which vary in their distribution and habitat specificity but share a small zone of sympatry in rocky fields south of Belo Horizonte in Minas Gerais, Brazil. The regeneration niche was tested using a seed germination experiment under controlled light conditions at seven fixed temperatures (10–40°C at 5°C intervals). Each of the three species germinated differently at the various temperatures. The species with the smallest geographic range, S. rupicola, also had the most restricted germination: germination peaked at 15°C when relatively few seeds germinated (45%), and even fewer germinated at other temperatures. The regeneration niche was wider in P. sericiflora and wider still in S. allagophylla, with germination greater than 90% between 15–25°C and greater than 80% between 15–30°C, respectively. Our germination results provide qualified support for the hypothesis of correlation of the regeneration niche with geographic distribution of related plant taxa, with important conservation implications for rare and endangered species.