Geofe O. Cadiz – winner of the 2020 Australian Journal of Botany student prize
Dick WilliamsResearch Institute for the Environment and Livelihoods, Charles Darwin University, NT, Australia.
CSIRO Land and Water, Clayton, Vic., Australia.
Editor in Chief, Australian Journal of Botany.
Australian Journal of Botany 69(3) i-i https://doi.org/10.1071/BTv69n3_ED
Published: 18 May 2021
Australian Journal of Botany has a long and proud tradition of supporting the next generation of plant scientists. In recent years, one of the ways we have done this is to award an annual prize for the best student paper. It is my pleasure to announce that the prize for best student paper for 2020 was won by Ms Geofe O. Cadiz of The University of Melbourne, and the University of the Philippines Cebu, for her paper ‘Environmental factors associated with the abundance of forest wiregrass (Tetrarrhena juncea), a flammable understorey grass in productive forests’, co-authored with her University of Melbourne colleagues Dr Jane Cawson, Dr Trent Penman, Dr Alan York and Dr Thomas Duff (Cadiz et al. 2020).
Tetrarrhena juncea (forest wiregrass) is widely distributed in the understorey of mesic forests of South East Australia, a bioregion that is subject to recurrent fire. The study examined the factors that determine the abundance of Tetrarrhena juncea, in particular temperature, light, moisture and disturbance regime, across 126 sites in the tall, wet mountain ash forests of Victoria. The rationale was to test the potential for Tetrarrhena juncea to be part of a grass–fire cycle, whereby disturbance can promote the dominance of flammable grasses, thereby causing a disturbance–flammability positive feedback. The findings suggested that in areas with wiregrass, disturbances such as fire that reduce tree canopy cover can promote wiregrass dominance, which may, in turn, increase forest flammability. Such feedbacks are globally important, as they will affect how fire regimes respond to climate change.
The judges – the Associate Editors and I – were impressed by the paper’s novelty and key questions, robust experimental design, exemplary statistical analyses and how the findings contribute to our understanding of fire regimes and their management.
It is my pleasure to also acknowledge the seven other student papers that were published in 2020. These covered a wide range of topics, species and ecosystems – all were of a very high standard:
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Isabela Costa’s paper on colleter exudates in Myrcia splendens in Brazil (Costa et al. 2020);
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Thomas Dawes’ paper on arboreal plants from Lord Howe Island (Dawes et al. 2020);
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Marília dos Santos’ paper on the phenology of Maprounea guianensis in the neotropical forests of Brazil (dos Santos et al. 2020);
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Emily Eakin-Busher’s paper on mating strategies of native plants in urban vegetation fragments in Western Australia (Eakin-Busher et al. 2020);
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Paul Foreman’s paper on Aboriginal fire history in the grassy ecosystems of Victoria’s Western Port region (Foreman 2020);
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Cléber Souza’s paper on plant community ecotones in the Cerrado of Brazil (Souza et al. 2020), and
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Yanti Winoto-Lewin’s paper on accidental epiphytes in the wet forests of Tasmania (Winoto-Lewin and Kirkpatrick 2020).
Hearty congratulations to all our student authors – you are the future of plant science.
References
Cadiz GO, Cawson JG, Penman TD, York A, Duff TJ (2020) Environmental factors associated with the abundance of forest wiregrass (Tetrarrhena juncea), a flammable understorey grass in productive forests. Australian Journal of Botany 68, 37–48.| Environmental factors associated with the abundance of forest wiregrass (Tetrarrhena juncea), a flammable understorey grass in productive forests.Crossref | GoogleScholarGoogle Scholar |
Costa ISC, Lucena EMP, Bonilla OH, Guesdon IR, Coutinho ÍAC (2020) Seasonal variation in colleter exudates in Myrcia splendens (Myrtaceae). Australian Journal of Botany 68, 403–412.
| Seasonal variation in colleter exudates in Myrcia splendens (Myrtaceae).Crossref | GoogleScholarGoogle Scholar |
Dawes TN, Hutton I, Burns KC (2020) Spatial ecology and host diversity of three arboreal plants from Lord Howe Island. Australian Journal of Botany 68, 458–465.
| Spatial ecology and host diversity of three arboreal plants from Lord Howe Island.Crossref | GoogleScholarGoogle Scholar |
dos Santos MGM, Neves SPS, do Couto-Santos APL, Cerqueira CO, Rossatto DR, de Miranda LDP, Funch LS (2020) Phenological diversity of Maprounea guianensis (Euphorbiaceae) in humid and dry neotropical forests. Australian Journal of Botany 68, 288–299.
| Phenological diversity of Maprounea guianensis (Euphorbiaceae) in humid and dry neotropical forests.Crossref | GoogleScholarGoogle Scholar |
Eakin-Busher EL, Ladd PG, Fontaine JB, Standish RJ (2020) Mating strategies dictate the importance of insect visits to native plants in urban fragments. Australian Journal of Botany 68, 26–36.
| Mating strategies dictate the importance of insect visits to native plants in urban fragments.Crossref | GoogleScholarGoogle Scholar |
Foreman P (2020) The 1840 Western Port journey and Aboriginal fire history in the grassy ecosystems of lowland, mesic south-eastern Australia. Australian Journal of Botany 68, 320–332.
| The 1840 Western Port journey and Aboriginal fire history in the grassy ecosystems of lowland, mesic south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Souza CR, Paula GGP, Mendes CN, Maia VA, Aguiar-Campos N, Araújo FC, Mariano RF, Oliveira HF, Morel JD, Santos RM (2020) Local-scale tree community ecotones are distinct vegetation types instead of mixed ones: a case study from the Cerrado–Atlantic forest ecotonal region in Brazil. Australian Journal of Botany 68, 153–164.
| Local-scale tree community ecotones are distinct vegetation types instead of mixed ones: a case study from the Cerrado–Atlantic forest ecotonal region in Brazil.Crossref | GoogleScholarGoogle Scholar |
Winoto-Lewin Y, Kirkpatrick JB (2020) Species of accidental woody epiphytes vary between host trees in Tasmanian wet forests. Australian Journal of Botany 68, 532–541.
| Species of accidental woody epiphytes vary between host trees in Tasmanian wet forests.Crossref | GoogleScholarGoogle Scholar |