<- Bromeliaceae Literature (most recent first) — Tina Wöhrmann

  1. Wöhrmann et all. 2020 (2020) Strong genetic differentiation among populations of Fosterella rusbyi (Bromeliaceae) in Bolivia. Botanical Journal of the Linnean Society 192(4): 744-759.
  2. Pinange et al. 2020 (2020) Population genetics shed light on species delimitation and life history of the Dyckia pernambucana complex (Bromeliaceae). Botanical Journal of the Linnean Society 192(4): 706-725.
  3. Zenk et al. 2018 (2018) Development of 15 nuclear microsatellite markers in Deuterocohnia (Pitcairnioideae; Bromeliaceae) using 454 pyrosequencing. Applications in Plant Sciences 6(4): e1147-.
  4. Gonçalves-Oliveira et al. 2017 (2017) Population genetic structure of the rock outcrop species Encholirium spectabile (Bromeliaceae): The role of pollination vs. seed dispersal and evolutionary implications. American Journal of Botany 104(6): 868-878.
  5. Wöhrmann et al. 2016 (2016) Microsatellites from Fosterella christophii (Bromeliaceae) by de novo transcriptome sequencing on the Pacific Biosciences RS platform. Applications in Plant Sciences 4(1): 1500084-.
  6. Sotero et al. 2015 (2015) Genetic variability among populations of the Dyckia pernambucana complex from the Borborema Plateau, Pernambuco, Brazil. , pp.
  7. Oliveira et al. 2015 (2015) Microsatellite data reveal unexpected patterns on Encholirium spectabile population genetic structure. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
  8. Wagner et al. 2015 (2015) Breaking down all barriers - reproduction biology and speciation processes in Fosterella (Pitcairnioideae s.str.). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
  9. Wöhrmann et al. 2015 (2015) SSR discovery in cDNAs of Fosterella christophii (Pitcairnioideae) using the PacBio third-generation sequencing platform. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
  10. Wöhrmann et al. 2015 (2015) The mode of plastid inheritance within the genus Fosterella (Pitcairnioideae). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
  11. Wohrmann 2014 (2014) Etablierung von Mikrosatellitenmarkern für die Pitcairnioideae (Bromeliaceae) und ihre Anwendung für populationsgenetische Fragestellungen. , pp.
  12. Wöhrmann et al. 2013 (2013) Development of 15 nuclear microsatellite markers in the genus Dyckia (Pitcairnioideae; Bromeliaceae) using 454 pyrosequencing. Conservation Genetics Resources 5: 81-84.
  13. Krapp et al. 2013 (2013) A set of variable plastid SSR loci for the genus Cryptanthus (Bromeliaceae). Rearch in Plant Biology 3(2): 18-21.
  14. Wohrmann et al. 2012 (2012) A set of plastid microsatellite loci for the genus Dyckia (Bromeliaceae) derived from 454 pyrosequencing. American Journal of Botany 99(4): e160-3..
  15. Wöhrmann et al. 2012 (2012) Development of microsatellite markers in Fosterella rusbyi (Bromeliaceae) using 454 pyrosequencing. American Journal of Botany 99(4): e160-e163.