Monitoring threatened palm populations: a case study of three narrow endemic species of New Caledonia
Emilie Ducouret A * , Charline Henry A , Alice Gouzerh A and Mathilde Desurmont AA Noé – programme Conservation et Restauration de la Forêt Calédonienne, 33 rue Sébastopol, BP4065, 98846 Nouméa, New Caledonia.
Pacific Conservation Biology 29(3) 246-252 https://doi.org/10.1071/PC21075
Submitted: 22 November 2021 Accepted: 14 April 2022 Published: 24 May 2022
© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing
Abstract
Context: New Caledonia is a hotspot of biodiversity, and among threatened species of the territory many are palms. Palms are sensitive to environmental changes and even more so when these species are narrow endemics. Monitoring populations is therefore an essential measure to conserve these emblems of tropical forest.
Aims: In this study, the population structure for three narrow endemic palms has been evaluated: Burretiokentia koghiensis, Cyphophoenix nucele and Chambeyronia houailouensis.
Methods: For each species, individuals were counted in several sampling plots. To understand the observed seedling deficit, we also assessed the impact of rat predation on fruit survival on C. nucele.
Key results: The three endangered species all have different structures. The structure of B. koghiensis shows that the population dynamics are currently undisturbed. The structure of C. nucele shows a very low number of seedlings, which does not affect the regeneration of the species. In contrast, the structure of C. houailouensis does not show a class deficit but neither does it fit the expected pattern.
Conclusions: All three species are subject to common threats such as introduced rats, yet their population structure is different.
Implications: The findings allow us to prioritise actions needed to restore regeneration of these species. These results underscore the importance of acquiring species-level data before implementing conservation actions.
Keywords: Arecaceae, conservation, field research, narrow endemic, New Caledonia, palm, population structure, threat.
References
Amice R, Canel J-P, Ugolini D, Butin J-P, Garnier D, Goxe J, Henry B, Lespes A, Letocart D, Letocart I, Mercier B, Tiavouane J, Veillon J-M, Warimavute G (2017a) Burretiokentia koghiensis. The IUCN Red List of Threatened Species 2017: e.T115734031A115777996. 8235. Available at| Crossref |
Amice R, Canel J, Ugolini D, Butin J, Fleurot D, Garnier D, Goxe J, Henry B, Lespes A, Letocart D, Letocart I, Mercier B, Tiavouane J, Veillon J-M, Warimavute G (2017b) Cyphophoenix nucele. The IUCN Red List of Threatened Species 2017: e.T38502A115773053. 8235. Available at
| Crossref |
Ash, J (1988). Demography and production of Balaka microcarpa burret (Arecaceae), a tropical understorey palm in Fiji. Australian Journal of Botany 36, 67–80.
| Demography and production of Balaka microcarpa burret (Arecaceae), a tropical understorey palm in Fiji.Crossref | GoogleScholarGoogle Scholar |
Auld, TD, Hutton, I, Ooi, MKJ, and Denham, AJ (2010). Disruption of recruitment in two endemic palms on Lord Howe Island by invasive rats. Biological Invasions 12, 3351–3361.
| Disruption of recruitment in two endemic palms on Lord Howe Island by invasive rats.Crossref | GoogleScholarGoogle Scholar |
Barrière R (2014) Inventaire des milieux et description des peuplements abritant le Cyphophoenix Nu Trehle, et du sentier botanique Wejieme Mission 2 - BOTANIC. (BOTANIC: Nouméa).
Beccari, O (1921). Le Palme della Nuova Caledonia. Webbia 5, 71–146.
| Le Palme della Nuova Caledonia.Crossref | GoogleScholarGoogle Scholar |
Benchimol, M, Talora, DC, Mariano-Neto, E, Oliveira, TLS, Leal, A, Mielke, MS, and Faria, D (2017). Losing our palms: the influence of landscape-scale deforestation on Arecaceae diversity in the Atlantic forest. Forest Ecology and Management 384, 314–322.
| Losing our palms: the influence of landscape-scale deforestation on Arecaceae diversity in the Atlantic forest.Crossref | GoogleScholarGoogle Scholar |
Condit, R, Sukumar, R, Hubbell, SP, and Foster, RB (1998). Predicting population trends from size distributions: a direct test in a tropical tree community. The American Naturalist 152, 495–509.
| Predicting population trends from size distributions: a direct test in a tropical tree community.Crossref | GoogleScholarGoogle Scholar | 18811360PubMed |
Ducouret E, Gouzerh A, Henry C (2021a) Burretiokentia koghiensis - Plan d’Actions de conservation. Association Noé - Programme ‘Palmiers et conifères de Nouvelle-Calédonie’. Nouméa. Available at https://noe.org/media/missions/20210502-pa-burretiokentia-koghiensis-vf-floutage.pdf
Ducouret E, Gouzerh A, Henry C (2021b) Cyphophoenix nucele - Plan d’Actions de conservation. Association Noé - Programme ‘Palmiers et conifères de Nouvelle-Calédonie’. Nouméa. Available at https://noe.org/media/missions/20210527-pa-cyphoephonix-nucele-vf-floutage.pdf
Duron Q, Bourguet E, Franquet R, Folger D, Teimpouene G, Wanguene M, Cassan J-J, Rigault F, De Meringo H, Millon A, Vidal E (2014) Rat Control in New Caledonian “Mainland Island” Rainforests: Will the Game be Worth the Candle? In ‘Proceedings of the Vertebrate Pest Conference’. (Eds RM Timm, JM O’Brien.) pp. 83–90. (University of California, Division of Agriculture and Natural Ressources: Davis.)
| Crossref |
Hodel DR, Pintaud JC (1998) ‘The palm of New Caledonia/Les palmiers de Nouvelle-Calédonie.’ (Allen Press: Kampon Tansacha, Nong Nooch Tropical Garden, Thailand)
Hodel, DR, Baker, WJ, Bellot, S, Pérez-Calle, V, Cumberledge, A, and Barret, CF (2021). Reassessment of the Archontophoenicinae of New Caledonia and description of a new species. Palms 65, 109–131.
Ibanez, T, Birnbaum, P, Gâteblé, G, Hequet, V, Isnard, S, Munzinger, J, Pillon, Y, Pouteau, R, Vandrot, H, and Jaffré, T (2019). Twenty years after Jaffré et al. (1998), is the system of protected areas now adequate in New Caledonia? Biodiversity and Conservation 28, 245–254.
| Twenty years after Jaffré et al. (1998), is the system of protected areas now adequate in New Caledonia?Crossref | GoogleScholarGoogle Scholar |
Işik, K (2011). Rare and endemic species: why are they prone to extinction? Turkish Journal of Botany 35, 411–417.
| Rare and endemic species: why are they prone to extinction?Crossref | GoogleScholarGoogle Scholar |
IUCN (2021) The IUCN Red List of Threatened Species. Version 2021–2. Available at https://www.iucnredlist.org. [Accessed 11 October 2021]
Jaffré T, Veillon J-M (1988) Morphologie, distribution et écologie des palmiers de Nouvelle-Calédonie. In: Sciences de la Vie. Botanique. Rapports Scientifiques et Techniques No 2. (ORSTOM (Institut francais de recherche scientifique pour le developpement en cooperation): Nouméa). Available at https://horizon.documentation.ird.fr/exl-doc/pleins_textes/divers14-07/26802.pdf
Jaffré T, Morat P, Veillon J-M, Rigault F, Dagostini G (2001) ‘Composition and characterisation of the native flora of New Caledonia, Doc. Sci. Tech. II 4, Volume spécial’. (Institut de Recherche pour le Développement (the French National Research Institute for Sustainable Development, IRD: Nouméa)
Jaffré T, Rigault F, Dagostini G, Fambart-Tinel J, Munzinger J (2004) Contribution des différentes unités de végétation à la richesse et à l’originalité de la flore de la Nouvelle-Calédonie. In ‘1. Actes des Assises de la Recherche Française dans le Pacifique. 2. Résumés des communications scientifiques, 24–27 août 2004, Nouméa, Nouvelle-Calédonie’. (Eds F Colin, N Barré, R Pineau, J-P Bonnefoy) p. 159. Agence de Développement Économique de la Nouvelle-Calédonie (ADECAL), Government of New Caledonia. (ADECAL: Nouméa)
Kruckeberg, AR, and Rabinowitz, D (1985). Biological aspects of endemism in higher plants. Annual Review of Ecology and Systematics 16, 447–479.
| Biological aspects of endemism in higher plants.Crossref | GoogleScholarGoogle Scholar |
Lande, R (1993). Risks of population extinction from demographic and environmental stochasticity and random catastrophes. The American Naturalist 142, 911–927.
| Risks of population extinction from demographic and environmental stochasticity and random catastrophes.Crossref | GoogleScholarGoogle Scholar | 29519140PubMed |
Lopez-Toledo, L, Horn, C, and Endress, BA (2011). Distribution and population patterns of the threatened palm Brahea aculeata in a tropical dry forest in Sonora, Mexico. Forest Ecology and Management 261, 1901–1910.
| Distribution and population patterns of the threatened palm Brahea aculeata in a tropical dry forest in Sonora, Mexico.Crossref | GoogleScholarGoogle Scholar |
May, RM (1973). Stability in randomly fluctuating versus deterministic environments. The American Naturalist 107, 621–650.
| Stability in randomly fluctuating versus deterministic environments.Crossref | GoogleScholarGoogle Scholar |
Moore, HE, and Uhl, NW (1984). The indigenous palms of New Caledonia. Allertonia 3, 314–402.
Morat, P (1993). Our knowledge of the flora of New Caledonia: endemism and diversity in relation to vegetation types and substrates. Biodiversity Letters 1, 72–81.
| Our knowledge of the flora of New Caledonia: endemism and diversity in relation to vegetation types and substrates.Crossref | GoogleScholarGoogle Scholar |
Morat, P, Jaffré, T, and Veillon, J-M (1994). Richesse et affinités floristiques de la Nouvelle-Calédonie: conséquences directes de son histoire géologique. Mémoires de la Société de Biogéographie.3ème série 4, 111–123.
Morat, P, Jaffré, T, and Veillon, J-M (1997). The flora of New Caledonia’s calcareous substrates. Adansonia sér.3 23, 109–127.
Muzinger J, Morat P, Jaffré T, Gâteblé G, Pillon Y, Rouhan G, Bruy D, Veillon J-M, Chalopin M (2022) FLORICAL: Checklist of the vascular indigenous flora of New Caledonia. Available at http://publish.plantnet-project.org/project/florical. [Accessed 23 March 2022]
Myers, N (1988). Threatened biotas: “hot spots” in tropical forests. Environmentalist 8, 187–208.
| Threatened biotas: “hot spots” in tropical forests.Crossref | GoogleScholarGoogle Scholar | 12322582PubMed |
Myers, N, Mittermeier, RA, Mittermeier, CG, da Fonseca, GAB, and Kent, J (2000). Biodiversity hotspots for conservation priorities. Nature 403, 853–858.
| Biodiversity hotspots for conservation priorities.Crossref | GoogleScholarGoogle Scholar | 10706275PubMed |
Nazareno, AG, and dos Reis, MS (2014). At risk of population decline? An ecological and genetic approach to the threatened palm species Butia eriospatha (Arecaceae) of southern brazil. Journal of Heredity 105, 120–129.
| At risk of population decline? An ecological and genetic approach to the threatened palm species Butia eriospatha (Arecaceae) of southern brazil.Crossref | GoogleScholarGoogle Scholar | 24078681PubMed |
Observatoire de l’Environnement Nouvelle-Calédonie (OEIL), Université du Maryland, LANCE FIRMS, NASA (2021 ) Surfaces potentiellement brûlées en Nouvelle-Calédonie data processing by OEIL and source data from MODIS/Aqua Terra Thermal Anomalies/Fire locations 1km FIRMS V0061 NRT (Vector data), MCD14DL. NASA’s Land, Atmosphere Near real-time Capability for EOS (LANCE) Fire Information for Resource Management System (FIRMS). Available at https://earthdata.nasa.gov/earth-observation-data/near-real-time/firms/mcd14dl
Pelletier B (2007) Geology of the New Caledonia region and its implications for the study of the New Caledonian biodiversity. In ‘Compendium of marine species of New Caledonia, Doc. Sci. Tech. II7, seconde édition’. (Eds C Payri, B Richer de Forges) pp. 19–32. (Institut de Recherche pour le Développement (the French National Research Institute for Sustainable Development) IRD: Nouméa)
Penin R (2019) Évaluation de l’état de conservation d’une espèce micro-endémique menacée de Nouvelle-Calédonie: étude de la biologie et de l’écologie du Cyphophoenix nucele H.E. Moore. - Association Noé - Mémoire de stage pour obtenir le diplôme national de master mention Biodiversité, écologie, évolution parcours Biodiversité végétale et gestion des écosystèmes tropicaux (BIOGET). Montpellier.
Pintaud J-C (1994) Étude écologique d’un peuplement de Palmiers en forêt dense humide sur roches ultramafiques sur pentes dans le Sud de la Nouvelle-Calédonie. Mémoire de DEA. ORSTOM/Université de Paris VI, Paris/Nouméa.
Pintaud J-C (1999) Phylogénie, bioéographie et écologie des palmiers de Nouvelle-Calédonie. Diploma thesis, Université Paul Sabatier Toulouse III, Toulouse.
Pintaud, J-C, and Hodel, DR (1998). Three new species of Burretiokentia. Principes 42, 152–155.
Pintaud, J-C, and Jaffré, T (2001). Patterns of diversity and endemism in palms on ultramafic rocks in New Caledonia. South African Journal of Science 97, 548–550.
Pintaud, J-C, Jaffré, T, and Veillon, J-M (1999). Conservation status of New Caledonia palms. Pacific Conservation Biology 5, 9–15.
| Conservation status of New Caledonia palms.Crossref | GoogleScholarGoogle Scholar |
Pintaud, JC,, and Baker, WJ (2008). A revision of the palm genera (Arecaceae) of New Caledonia. Kew Bulletin 63, 61–73.
| A revision of the palm genera (Arecaceae) of New Caledonia.Crossref | GoogleScholarGoogle Scholar |
Province Sud (2009) Sous-section 11-La réserve naturelle de la Vallée de la Thy - Article 213-11. In ‘Code de l’Environement de la Province Sud’. p. 49. (Province Sud: Nouméa). Available at https://www.province-sud.nc/codenv
Rabinowitz D (1981) Seven forms of rarity. In ‘The biological aspects of rare plant conservation’. (Ed H Synge) pp. 205–217. (John Wiley & Sons Ltd).
| Crossref |
Shiels, AB, and Drake, DR (2011). Are introduced rats (Rattus rattus) both seed predators and dispersers in Hawaii? Biological Invasions 13, 883–894.
| Are introduced rats (Rattus rattus) both seed predators and dispersers in Hawaii?Crossref | GoogleScholarGoogle Scholar |
Shiels, AB, and Drake, DR (2015). Barriers to seed and seedling survival of once-common Hawaiian palms: the role of invasive rats and ungulates. AoB Plants 7, plv057.
| Barriers to seed and seedling survival of once-common Hawaiian palms: the role of invasive rats and ungulates.Crossref | GoogleScholarGoogle Scholar | 26019231PubMed |
Silva Matos, DM, Freckleton, RP, and Watkinson, AR (1999). The role of density dependence in the population dynamics of a tropical palm. Ecology 80, 2635–2650.
| The role of density dependence in the population dynamics of a tropical palm.Crossref | GoogleScholarGoogle Scholar |
Silvertown JW (1982) ‘Introduction to plant ecology.’ (Longman Publishing Group: London)
Sist P (1989) Demography of Astrocaryum sciophylum, an understorey palm of French Guiana. Principes 33, 142–151.
Vandermeer, JH (1977). Notes on density dependence in Welfia georgii, a lowland rainforest species in Costa Rica. Brenesia , 9–15.
Warimavute G (2017) Red List assessment of New Caledonian palms (Arecaceae) and recommendations for their conservation. Mémoire de Master 2 en Sciences Pour l’Environnement (SPE), Nouméa.
Watling D (Ed.) (2005) ‘Palms of the Fiji Islands.’ (Environmental Consultant (Fiji) Ltd: Suva)
Wulff, AS, Hollingsworth, PM, Ahrends, A, Jaffré, T, Veillon, JM, L’Huillier, L, and Fogliani, B (2013). Conservation priorities in a biodiversity hotspot: analysis of narrow endemic plant species in New Caledonia. PLoS ONE 8, e73371.
| Conservation priorities in a biodiversity hotspot: analysis of narrow endemic plant species in New Caledonia.Crossref | GoogleScholarGoogle Scholar | 24058470PubMed |