Acropora duncani, (REUSS, 1866)

ACROPORA DUNCANI ( REUSS, 1866) View in CoL

FIGURES 16 View Figure 16 , 17 View Figure 17

Madrepora duncani Reuss, 1866: 171 , pl. 2 fig. 2a, b

Madrepora duncani Martin, 1880: 146 , pl. 25 fig. 11 (only specimen RGM 3990)

Diagnosis

Colonies probably arborescent with indeterminate growth, thin cylindrical branches. Branch structure axial dominated. Tubular to nariform radial corallites, small in size, relatively random distribution. Coenosteum composed of slightly flattened spinules, costate on corallites and reticular to costate in between corallites.

Material studied

Lectotype. NHMW 1959 View Materials /334/12. Type locality: Gunung Selah-Ci-Lanangthale, Java. Tortonian, 8.5–11.6 Ma. Collector F. V. Hochstetter, Novara Expedition 1857– 1859.

Other material studied. East Kalimantan: NHMUK PI AZ 6351 , 930 specimens ; NHMUK PI AZ 7086 , 143 specimens ; RGM 42980, 1 specimen . Java: RGM 3990 View Materials , 1 specimen ; RGM 3992 View Materials , 1 specimen ; RGM 4000 View Materials , 2 specimens ; RGM 791821 View Materials , 2 specimens ; Indonesia: RGM 791815 View Materials , 2 specimens .

Additional material. East Kalimantan: RGM 791836 View Materials , 2 specimens ; NHMUK PI AZ 6007 , 29 specimens ; NHMUK PI AZ 6233 , 23 specimens ; NHMUK PI AZ 6273 , 136 specimens ; NHMUK PI AZ 6304 , 30 specimens . Java: RGM 3994 View Materials , 3 specimens ; RGM 3996 View Materials , 3 specimens .

Description of lectotype

Corallum . One specimen with scars of two broken branches and three incipient branchlets, and broken branch tip, length 19.38 mm, mid branch diameter 6.61– 7.37– 8.23 mm.

Corallites. Axial corallite dominates branch structure, visible only on transverse section and incipient branchlets, outer diameter 1.72 mm, inner diameter 1.15 mm, wall porous 0.48 mm thick, primary septa up to three-quarters R, joining deep in the fossa, secondary septa up to one-third R; radial corallites evenly sized and randomly distributed, mostly subimmersed or with small lips and round calices, profile length 0.27– 0.35– 0.41 mm, outer diameter 0.94–1.07– 1.37 mm, inner diameter 0.52–0.57– 0.63 mm, wall thickness 0.12– 0.16– 0.19 mm, distance between centres 2.26–2.79– 3.19 mm, primary septa up to two-thirds R, secondary septa up to one-quarter R or visible as points. Corallite arrangement sequence 1–?–6–?.

Coenosteum. Composed of flattened simple spinules, arranged into irregular costae on radial corallite walls, reticulate with less densely arranged spinules in intercorallite areas. Coenosteum amount longitudinal 0.87–1.53– 2.28 mm, coenosteum amount lateral 0.88–1.70– 2.28 mm.

Description of East Kalimantan fossil specimens Corallum . Some of the studied specimens show evidence of small arborescent colonies, branching near the base of the fragments, opposite or alternate, distance between branches at least 3.40–5.65– 8.40 mm, angles 57.56–68.17–75.65°, although mostly broken in small pieces, overall length 5.99–15.05– 27.80 mm, generally with no scars other than the one of attachment; branches tapering, basal diameter 3.93–5.25– 9.60 mm, mid branch diameter 2.10–4.00– 8.66 mm, branch tip diameter 1.75–2.11– 2.41 mm, round in cross section; growth probably indeterminate.

Corallites. Axial corallite dominates branch structure, visible on many branch tips, 0.42–0.57– 0.65 mm exsert, outer diameter 1.16–1.56– 1.90 mm, inner diameter 0.80–0.95– 1.10 mm, wall porous 0.10–0.33– 0.45 mm thick, primary septa up to three-quarters R, secondary septa up to one-third R; radial corallites evenly sized and randomly distributed, mostly subimmersed or with small lips and oval calices, profile length 0.12–0.31– 0.49 mm, angles 22.35–34.91– 54.69°, outer diameter 0.46–0.74– 0.91 mm, inner diameter 0.27–0.51– 0.82 mm, wall thickness 0.10–0.14– 0.22 mm, distance between centres 0.90–1.48– 2.16 mm, primary septa up to two-thirds R, secondary septa up to one-quarter R or visible as points. Corallite arrangement sequence 1–4–4–6–[6–8]–?.

Coenosteum. As described for the lectotype, varying from reticulate to aligned costate arrangement on the intercorallite areas ( Fig. 17C–F View Figure 17 ). Coenosteum amount 0.27–0.78– 1.42 mm.

Occurrence

Early to Late Miocene. The earliest occurrence of A. duncani, RGM 3992, is from Ci Talahab, Java, 18– 13 Ma (Burdigalian to Serravalian). Reidentified material from Naturalis collections are mainly from Java localities including Liotjitjangkang, Ci Burial and Ci Beber of Serravallian to Tortonian age, 8.5–13.5 Ma. New specimens are from the East Kalimantan localities around Bontang, TF102 and TF154, of Tortonian age, 9.4–9.8 Ma.

Palaeoenvironment

Acropora duncani was locally abundant in some localities around Bontang that have been interpreted as shallow-water coral carpets influenced by clay-rich siliciclastic inputs ( Kusworo et al., 2015). These habitats are dominated by the extinct poritid Dictyaraea and it co-occurs with other branching corals such as Seriatopora , Porites and other two species of the aspera group, A. borneoensis and A. herklotsi .

Remarks

Acropora duncani View in CoL was adopted as a working name to identify most of the Acropora View in CoL fossil specimens found in Indonesia, because only poor-preserved material was available for most researchers during the early 20th century and collections were composed of a few specimens ( Gerth, 1921, 1923). Reuss (1866) distinguished A. duncani View in CoL from A. herklotsi View in CoL as A. duncani View in CoL has smaller (∼ 0.5 mm calice diameter) and more irregularly arranged corallites than A. herklotsi View in CoL . From the two specimens included in the syntype series of A. duncani, NHMW 1959 View in CoL /334/12 ( Fig. 16 View Figure 16 ) represents better the diagnostic characteristics described by Reuss (1866). Therefore, this specimen is designated as the lectotype of A. duncani View in CoL . According to the diagnostic characters re-described here, we confirmed that nine specimen lots in historical collections of the Naturalis museum correspond to A. duncani View in CoL ( Table S2). Measurements performed on the second specimen described by Reuss (1866), NHMW 1959/334/13 ( Fig. 18C, D View Figure 18 ), match better the range of variation of the fossil material interpret- ed as Acropora borneoensis ( Felix, 1921) View in CoL , for which details are explained below. Fossil specimens were compared with modern representative specimens of the aspera View in CoL group, including A. pulchra View in CoL , A. aspera View in CoL , and A. millepora View in CoL , but none of them show a similar character combination and the proportions described here for A. duncani View in CoL , A. herklotsi View in CoL and A. borneoensis View in CoL .