Odonata of a heath (kerangas) dominated mosaic forest in Central Kalimantan, Indonesia

Enregistrements de données

Les données de cette ressource occurrence ont été publiées sous forme d'une Archive Darwin Core (Darwin Core Archive ou DwC-A), le format standard pour partager des données de biodiversité en tant qu'ensemble d'un ou plusieurs tableurs de données. Le tableur de données du cœur de standard (core) contient 305 enregistrements.

Cet IPT archive les données et sert donc de dépôt de données. Les données et métadonnées de la ressource sont disponibles pour téléchargement dans la section téléchargements. Le tableau des versions liste les autres versions de chaque ressource rendues disponibles de façon publique et permet de tracer les modifications apportées à la ressource au fil du temps.

Versions

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Comment citer

Les chercheurs doivent citer cette ressource comme suit:

Jorian, A. Hendriks, Mariaty, Siti Maimunah, Namrata B. Anirudh, Brendan A. Holly, Roy. H. J. Erkens, Farah Dini, Tungga Dewi, Muhammad A. Imron and Mark E. Harrison

Droits

Les chercheurs doivent respecter la déclaration de droits suivante:

L’éditeur et détenteur des droits de cette ressource est Borneo Nature Foundation. Ce travail est sous licence Creative Commons Attribution (CC-BY) 4.0.

Enregistrement GBIF

Cette ressource a été enregistrée sur le portail GBIF, et possède l'UUID GBIF suivante : 861c1ecb-764b-4d89-864b-b913a58fae0a.  Borneo Nature Foundation publie cette ressource, et est enregistré dans le GBIF comme éditeur de données avec l'approbation du Indonesian Biodiversity Information Facility.

Mots-clé

Anisoptera; Central Kalimantan; Diversity; Habitat-heterogeneity; Indonesia; Kerangas; Morphology; Zygoptera.; Occurrence; Observation

Contacts

Couverture géographique

The data were collected from the Mungku Baru Education Forest (Kawasan Hutan Dengan Tujuan Khusus - KHDTK), Central Kalimantan, Indonesia (1.64445°S, 113.77398°E). This site is managed by Universitas Muhammadiyah Palangka Raya (UMPR) in collaboration with Borneo Nature Foundation Indonesia (BNF) and the local people of Mungku Baru village. The KHDTK forest spans 4,910 ha and lies in the western part of the more extensive Rungan forest landscape within the watershed between the Rungan and Kahayan Rivers. The Rungan landscape covers an area of over 150,000 ha, which administratively includes three Central Kalimantan districts; i.e., Kotamadya Palangka Raya, Kabupaten Gunung Mas, and Kabupaten Pulang Pisau. The ecosystem of Rungan landscape consists of a combination of distinct habitat types existing in a mosaic, including kerangas (heath), peat-swamp, and lowland Dipterocarp forests. Despite the majority of the forest in the landscape having no legal protection and being located near Palangka Raya City, the provincial capital of Central Kalimantan, the Rungan landscape supports diverse flora and fauna species, and is considered important for the conservation of threatened species such as the Bornean orangutan (Buckley et al., 2018; Hendriks, 2020).

Couverture taxonomique

The dataset consists of the two sub-orders of Odonata, namely Anisoptera and Zygoptera. − Anisoptera: dataset consists of 2 families, 8 genera and 10 species. All captures were identified to species level − Zygoptera: dataset constitutes of 7 families, 11 genera and 9 species. All captures were identified to species level except for 4 which could only be identified to genus

Couverture temporelle

Données sur le projet

This research is a part of intensive research efforts on many aspects of kerangas dominated lowland mixed mosaic habitat ecology and management by Universitas Muhammadiyah Palangkaraya and the Borneo Nature Foundation, and other institutions since 2016 in the Mungku Baru education forest (KHDTK) located in the Rungan Landscape, Central Kalimantan. The landscape that the research site lies in is also the largest un-protected forest block of the province, making it an extremely important area for targeted conservation efforts and long-term research. The forest is characteristic different interconnected habitat types, including heath (kerangas) and peat forest occurring within a mosaic. Owing to its unique habitat characteristics, these forests support a high level of diverse and endemic biodiversity and is an important local ecoregion. Odonata are a potential bioindicator organism which can be used to understand the ecological impact of restoration of disturbed habitats, and thus can help inform conservation efforts and management initiatives. The research also contributes to the paucity of literature on Odonata in tropical heath dominated habitats and helps understand species assemblages within a mosaic habitat structure.

Les personnes impliquées dans le projet:

Méthodes d'échantillonnage

Two lines transects of 250 m in length and 0.5 m in width were surveyed for Odonata within each of the three habitat types (Kerangas, low pole peat and mixed swamp forest), resulting in six transects in total. Each transect was surveyed twice per day at 09:00 and 14:30 Western Indonesian Time, to coincide with the peak activity period of Odonata. To better represent habitat conditions and their impact on Odonata ecology, the transects included both water and open canopy areas for each habitat category. Throughout the study period, each transect was surveyed eight times. All Odonata spotted during surveys were captured using an aerial net. Each individual captured was marked (abdomen or wing with a permanent marker), photographed, and released at the site of capture. To ensure accurate identification, photographs were taken of the lateral, dorsal and ventral views, and close-ups taken of their anal appendage. The surveys were only conducted on clear days without rain. Any behaviours/activities such as feeding, mating, ovipositing, and tenerals were recorded as additional data. In such cases, individuals were not captured using nets but were still identified by sight to the species level when possible.

Description des étapes de la méthode:

1. Odonata were surveyed through walking transects of 250 m length using the aerial nets method to capture, identify, mark and release sighted individuals.
2. Surveys were conducted twice a day at 09:00h and 14:30h, during the peak activity periods of Odonata
3. Each adult Odonata sighted during surveys was captured, photographed, identified, marked and released at the site of capture.
4. Weather data (categorized into sunny, cloudy, windy, rainy, and rain-laden clouds) was visually determined every 15 minutes. Surveys were not conducted during rain.
5. Environmental data on the percentage of surface water, pH and temperature of surface water if present, surface water attribute (lotic, lentic or absent), incident light (direct or diffused) and canopy cover were recorded at each capture location within a 5 m diameter of the sight of capture and at every 25 m intervals on the transect.
6. Unknown species were identified with the assistance of regional Odonata experts and identification reference guides.
7. Data from tally sheets were digitized into Excel worksheet format and stored in a single electronic database. From the original dataset, data were cleaned and only relevant fields for this occurrence resource were retained.
8. All scientific names and taxonomic validations were redone by the resource creator using GBIF backbone and Global Name Resolver to ensure the species names were accurate.
9. Field notes form the original data were separated into four different remarks as per the Darwin Core Standard i.e., organismRemarks, identificationRemarks, occurrenceRemarks and eventRemarks .
10. Measurement data were segregated and included in the DwC field dynamicProperties and taxonRemarks fields. The dynamicProperties contain environmental data such as percentage of surface water, pH, and temperature, whereas the taxonRemarks field includes morphological measurements of individual Odonata captured during surveys.
11. All data in this dataset were standardized to ISO 8601, ISO 316-1-alpha-2, JSON, and Darwin Core standards.
12. Data cleaning, transformation, and formatting involved using Microsoft Excel and Open Refine.
13. Final steps for preparing this dataset were done by running it through the GBIF validator.

Citations bibliographiques

1. Buckley, B. J. W., Capilla, B. R., Maimunah, S., Adul, Armadyanto, Boyd, N., … Harrison, M. E. (2018). Biodiversity, Forest Structure & Conservation Importance of the Mungku Baru Education Forest, Rungan, Central Kalimantan, Indonesia. Palangka Raya. www.borneonature.org
2. Dolný, A., Bárta, D., Lhota, S., Rusdianto, & Drozd, P. (2011). Dragonflies (Odonata) in the Bornean rain forest as indicators of changes in biodiversity resulting from forest modification and destruction. Tropical Zoology, 24(1), 63–86.
3. Dow, R. A., & Silvius, M. J. (2014). Results of an Odonata survey carried out in the peatlands of Central Kalimantan, Indonesia, in 2012. Faunistic Studies in South-East Asian and Pacific Island Odonata, 7(January), 1–37.
4. Hendriks, J. A. (2020). A Preliminary Study of Odonata Communities in a Mixed-Mosaic Habitat Structure in Central Kalimantan, Indonesia (Maastricht University). https://www.borneonaturefoundation.org/wp-content/uploads/2021/09/Hendriks-20-Odonata-in-mixed-mosaic-habitat-KHDTK-BSc.pdf
5. Oppel, S. (2006) Using distance sampling to quantify Odonata density in tropical rainforests. International Journal of Odonatology, 9(1), 81-88 https://doi.org/10.1080/13887890.2006.9748265
6. Orr, A. G. (2001). An annotated checklist of the Odonata of Brunei with ecological notes and descriptions of hitherto unknown males and larvae. International Journal of Odonatology, 4(2), 167-220. https://doi.org/10.1080/13887890.2001.9748168
7. Orr, A. G. (2006). Odonata in Bornean tropical rain forest formations: diversity, endemicity and implications for conservation management. In: Adolfo Cordero Rivera (ed). Forest and Dragonflies, Fourth WDA International Symposium of Odonatology, Pontevedra (Spain), July 2005. Pensoft Publishers, Sofia, pp. 51-78.
8. Pollard, E. (1975). A method of assessing the abundance of butterflies in Monks WOod National Nature Reserve in 1973. Entomologist’s Gaz., 26, 79-88. CRID: 1571135649917380608
9. Pollard, E. (1977). A method for assessing changes in the abundance of butterflies. Biological Conservation, 12(2), 115-134. https://doi.org/10.1016/0006-3207(77)90065-9
10. Purwanto, P. B., Zaman, M. N., Akbar, M., & Arief, M. (2019, March). Study of Odonata Diversity in Kerangas Forest Sukadamai Village and Punai Beach Simpang Pesak, Belitung Timur. In Proceeding International Conference on Science and Engineering (Vol. 2, pp. 133-136). https://doi.org/10.14421/icse.v2.71
11. Valente-Neto, F., De Oliveira Roque, F., Rodrigues, M. E., Juen, L., & Swan, C. M. (2016). Toward a practical use of Neotropical odonates as bioindicators: Testing congruence across taxonomic resolution and life stages. Ecological Indicators, 61, 952–959. 10.1016/j.ecolind.2015.10.052
12. Van Swaay, C. A. M. (2003). Butterfly densities on line transects in The Netherlands from 1990-2001. Entomologische Berichten-Nederlandsche Entomologische Vereenigung, 63(4), 82-87
13. Walpole, M. J., & Sheldon, I. R. (1999). Sampling butterflies in tropical rainforest: an evaluation of a transect walk method. Biological Conservation, 87(1), 85-91. https://doi.org/10.1016/S0006-3207(98)00037-8

Métadonnées additionnelles