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Mene

Mene is a of ray-finned fish in the Menidae, known as the moonfishes. It is the sole extant of the and contains only one living , Mene maculata. These fish have a distinctive deep, highly compressed, disk-shaped body with a silvery coloration, resembling a in profile. M. maculata inhabits deeper coastal waters and estuaries of the Indo-West Pacific, from the and to the western , including around major island groups. The has an extensive record, with the earliest known s dating to the lower Eocene of the period.

Description

Morphology

The genus is characterized by a highly laterally compressed, disk-shaped body that resembles a coin or the , with body depth approximately equal to length in adults. The body is extremely deep and nearly triangular in outline, featuring a sharp-edged ventral or breast, and the greatest depth occurs below the , which is at least four times the depth above it. Adult specimens typically reach a standard length of up to 20 cm, with maximum total lengths recorded at 30 cm. The pelvic fins are thread-like and greatly elongated, extending posteriorly along the body and contributing to a superficial resemblance to . The dorsal fin is elongated and falcate, with 3-4 weak spines (reducing with age) and 40-45 soft rays, while the anal fin is long-based and low, originating opposite the pelvic-fin insertion and bearing 30-33 soft rays; the pectoral fins are long and pointed. The is small, protrusible, and nearly vertical, armed with minute, pointed teeth that are crowded together. The is covered in minute, deciduous scales that are barely visible to the . Internally, the shows strong , and the is physoclistous, lacking a pneumatic duct to the .

Coloration and Adaptations

Mene maculata exhibits , characterized by a dark metallic dorsum and a silvery-white ventrum, which helps reduce visibility from above and below in the . Along the sides, longitudinal rows of black spots—typically 3 to 4 irregular rows of round to ovoid dark slaty- markings bisected by the —contribute to this pattern. These spots form a that breaks up the fish's outline, aiding in predator avoidance by mimicking shadows or debris in open-water environments. The scales of Mene are , reflecting light to enhance in sunlit coastal waters where the species often schools. This , combined with the metallic sheen of the dorsum, allows the fish to blend seamlessly with the shimmering surface light from below, a common adaptation in pelagic perciform fishes. evidence from Eocene specimens of Mene rhombea at the Bolca reveals preserved melanin-based skin patterning, including and longitudinal formed by melanophore arrangements similar in principle to those in modern Mene, though differing in spot versus stripe . Melanosomes in these fossils, confirmed via and , show regional variations in size (e.g., 708 nm ± 107 nm on the dorsum), indicating conserved mechanisms for distribution that supported in ancient reef-associated habitats. Sensory adaptations in Mene include large eyes suited for low-light conditions at depths of 50-200 m, enhancing for detecting prey and predators in dim coastal waters. The system, a network of mechanoreceptors along the body, detects vibrations and water movements from nearby prey, facilitating ambush strategies in schooling groups.

Ecology

Habitat Preferences

Mene species inhabit deeper coastal waters, typically at depths of 50–200 m, on continental shelves and around major island groups throughout the . This demersal distribution positions them near the seafloor, where they favor soft muddy or sandy bottoms conducive to their benthic associations. They occasionally venture into river estuaries, particularly during periods of elevated that align with their physiological tolerances. These fish are closely linked to monsoon-driven upwelling zones, which enhance nutrient influx while sustaining water temperatures in the 22–28°C range. Such dynamic environments support their suitability by promoting productivity without extreme fluctuations. Mene tolerates moderate variations between 25 and 35 ppt, reflecting adaptations to both and estuarine conditions, but they generally avoid habitats with strong currents, preferring low-velocity zones (0–0.2 m/s eastward and –0.1–0.2 m/s northward). In southwestern waters, oceanographic factors such as chlorophyll-a concentrations (0.3–0.5 mg/m³) significantly modulate habitat quality, with higher levels correlating to peak abundance during the northeast .

Diet and Feeding Behavior

Mene maculata exhibits a carnivorous diet primarily consisting of small crustaceans such as copepods (Calanoida), amphipods, decapods (including shrimps), and like Benthosema pterotum https://doi.org/10.3390/fishes10040182 https://doi.org/10.1016/j.marenvres.2025.107358. Stomach content analyses from southwestern reveal that , particularly Calanoida, accounts for approximately 37% of the diet by prey-specific relative importance index (%PSIRI), while contribute about 19% https://doi.org/10.3390/fishes10040182. Seasonal shifts in dietary composition occur, with decapods dominating over 90% of the index of relative importance (IRI) during the southwest , compared to a broader intake including euphausiids (14.2% IRI) during the northeast https://doi.org/10.1016/j.marenvres.2025.107358. The species displays opportunistic feeding behavior, with dietary niche breadth expanding during the northeast due to varying prey availability and reduced predator pressure, enabling energy accumulation for https://doi.org/10.1016/j.marenvres.2025.107358. As a , M. maculata schools in groups to facilitate foraging efficiency and confuse predators, linking lower-trophic to higher-level marine predators in coastal food webs https://www.fishbase.se/summary/Mene-maculata https://doi.org/10.1016/j.marenvres.2025.107358. Stable (δ¹⁵N ranging from 6.57‰ to 11.92‰) indicates a mid-level trophic position of approximately 3.2, calculated using a trophic enrichment factor of 3.4‰ and a from small https://doi.org/10.1016/j.marenvres.2025.107358.

Reproduction

Mene maculata displays a total spawning pattern, with reproductive activity occurring from to and peaking during the west monsoon in -October, as observed in Palabuhanratu Bay, . This seasonality aligns with events that enhance availability and prey abundance, supporting gonadal development. Spawning may involve brief incursions into estuarine areas, though detailed dynamics are addressed elsewhere. The species is gonochoristic, with distinct male and female maturation; in waters, females achieve first maturity at a total length of 14.3 cm, slightly earlier than males at 15.1 cm. In contrast, studies from the of report males maturing at 13.5 cm and females at 13.8 cm total length, indicating minor population-level variations in size at maturity. These differences likely reflect regional environmental influences, such as and supply, which modulate gonadosomatic index (GSI) levels—peaking at 2.17% for females and 1.26% for males in before declining to lows of 0.53% and 0.19% by . Fecundity in mature females ranges from 11,988 to 21,164 eggs, averaging around 16,515, supporting high reproductive output characteristic of small pelagic spawners. Eggs are pelagic, released without , and hatch into larvae that drift in the before settling. Post-larval follows a negative allometric , described by the length-weight relationship W = aL^b where b < 3, indicating that weight increases more slowly than length cubed as individuals mature. This , combined with indeterminate , enhances in variable coastal environments.

Distribution

Modern Range

The moonfish (Mene maculata), the sole extant species in its , exhibits a broad distribution across the Indo-West Pacific region, ranging from —extending south to , —to the , southern , and northeastern , with records extending eastward to . This species is particularly prevalent in subtropical coastal waters between approximately 32°N and 30°S and 30°E to 169°E , often forming schools in deeper nearshore areas. M. maculata plays a significant role in coastal fisheries throughout its range, especially in , , and the , where it is targeted by purse seine, trawl, and beach seine operations and marketed fresh or dried. In the , it is commonly known by local names such as bilong-bilong and hiwas, reflecting its cultural and economic importance as a fish. In , it constitutes nearly 98% of purse seine landings in key fishing grounds, underscoring its commercial value despite incidental catches in some trawls. Indonesian fisheries, particularly around Palabuhanratu Bay, also exploit this species seasonally, contributing to regional catches. No evidence indicates transoceanic migrations for M. maculata; instead, its movements are localized and linked to seasonal oceanographic features such as events driven by winds. These movements facilitate spawning and feeding aggregations, with exhibiting phototaxis and responding to variations in and currents like the Kuroshio, which influence catch rates in coastal zones. During the northeast , enhances nutrient mixing and prey availability, prompting shifts in distribution patterns. Population densities of M. maculata are notably highest in the southwestern , where favorable —including and current interactions—supports elevated and consistent fishing yields between and Pingtung. Spatial habitat models confirm this region's role as a primary , with densities influenced by seasonal prey abundance and environmental cues. Human impacts pose ongoing challenges to M. maculata populations, primarily through , which peaked in the 1980s following expansion from the 1950s and led to declining catches after the . Despite these trends, the species holds no formal under the , classified as , highlighting gaps in monitoring and management across its range.

Fossil Occurrences

The earliest fossil records of Mene date to the epoch, with Mene purdyi known from marine deposits of the Formation in northwestern , specifically south of Negritos (Lagunitos area). This species is assigned to the late Thanetian stage, approximately 56.5–54.7 million years ago, based on stratigraphic correlations with associated and nannofossils. Eocene occurrences represent hotspots for Mene fossils, particularly in Tethyan marine settings. Mene rhombea and Mene oblonga are documented from the renowned Monte Bolca in , dated to the Lutetian stage (middle Eocene, ~48–40 million years ago). At this site, at least six complete specimens of M. rhombea and seven of M. oblonga have been recovered from finely laminated limestones indicative of a shallow, tropical environment. Mene triangulum is recorded from similar Tethyan deposits in the Danatinsk Formation of , also late (Thanetian), with over 20 articulated specimens ranging 40–145 mm in total length. Additional Paleocene or early Eocene sites include Mene phosphatica from the phosphate deposits of , central , where two incomplete specimens suggest an estimated body length of ~94 mm. The age of these remains is debated, with assignments to either the lower (Danian/Montian) or early Eocene (Ypresian) based on biostratigraphic inconsistencies in the phosphate sequence. Mene novaehispaniae is known from a single, presumed lost specimen in chalky matrix from in the , dated to the . Fossil records of Mene become sparse in the , with no confirmed specimens from the or Pleistocene, indicating a post-Eocene decline in diversity and abundance. The only evidence consists of isolated otoliths from the early Canture Formation in northeastern . Preservation in Mene fossils is exceptional at lagerstätten such as Monte Bolca, where articulated skeletons are common, and rare instances preserve melanin-based skin patterns and internal anatomical details like the pericardial cavity. Similarly, the Formation yields three-dimensional cranial elements, likely due to rapid burial in an upwelling-influenced marine setting.

Taxonomy

Classification

The genus Mene is classified within the kingdom Animalia, phylum Chordata, class , order , suborder Menoidei, and Menidae, the latter being monotypic and comprising only this genus with its single extant . This placement reflects a phylogenetic framework derived from integrated molecular and morphological data, positioning Menidae as an early-diverging lineage within the diverse percomorph fishes. The genus Mene was established by in 1803, with Mene maculata (described by Bloch and Schneider in 1801) designated as the by monotypy. Historically, Menidae was included within the broad order based on morphological similarities to other percomorphs, but 2010s phylogenetic studies incorporating DNA sequence data from multiple loci revised its position to , highlighting its distinct evolutionary trajectory. Phylogenetic analyses, combining morphological characters (such as body compression and fin ray counts) with genomic data (including ultraconserved elements), consistently recover Menidae as a basal member of within . In this arrangement, the family is sister to a encompassing the suborders Carangoidei (jacks, ), Coryphaenoidei (dolphinfishes, Coryphaenidae), Echeneoidei (remoras, Echeneidae), and Bramidae (pomfrets), supported by shared synapomorphies like specialized body shapes adapted to pelagic environments. This relationship underscores Menidae's role as a key lineage illuminating the diversification of carangiform fishes during the .

Species Diversity

The genus Mene is represented by a single extant species, Mene maculata, which is characterized by a deep, disc-like body reaching up to 240 mm in standard length, 3–4 dorsal spines, and 40–45 dorsal soft rays, with a distribution across the Indo-West Pacific oceans. Eight extinct species are currently recognized within the genus, spanning the to , though some assignments remain tentative due to incomplete material. These include Mene phosphatica from the lower of , notable for its small size of approximately 94 mm standard length and lack of preserved cranial elements; Mene purdyi from the upper of , distinguished by its exceptionally large size exceeding 400 mm total length, an imperforate supraoccipital crest, and a concave posterior margin on the ; Mene triangulum from the upper of , featuring a greatly elongated fourth ray often longer than the body and sizes ranging from 40–145 mm; Mene rhombea from the middle Eocene of , known for its body outline, sizes up to 220 mm, and well-preserved osteological details including long pelvic fins; Mene oblonga from the middle Eocene of , identified by its notably shallow, elongated body form and maximum size of 270 mm; Mene novaehispaniae from the of , with an intermediate morphology between Eocene congeners; and the tentatively assigned ?Mene kapurdiensis (originally described as Leiomene kapurdiensis) from the lower Eocene of , characterized by a shallow body depth and estimated standard length of 36 mm. The total recognized diversity of Mene thus comprises approximately 9 species (1 extant and 8 extinct), with the family Menidae achieving its peak during the middle Eocene in the Tethys Sea, where multiple sympatric species co-occurred in regions like Monte Bolca, Italy. Some Eocene taxa were previously misclassified under separate genera, such as Leiomene, but shared derived characters support their synonymy with Mene. An undescribed upper Paleocene species from Denmark further suggests additional undocumented diversity.

Evolutionary History

Paleobiology

Fossil evidence from the Eocene Monte Bolca indicates that species such as Mene rhombea inhabited warm, shallow Tethyan seas as reef-associated demersal , thriving in peri-reefal environments that blended coastal influences with open marine conditions. These assemblages, dated to approximately 48 million years ago, preserve M. rhombea alongside diverse reef communities, suggesting adaptations to structured habitats near reefs where predation and shaped ecological roles. In contrast, species like Mene purdyi from late Thanetian deposits in northwestern (approximately 56.5–54.7 million years ago) reflect adaptations to post-Cretaceous-Paleogene recovery oceans, characterized by upwelling-dominated waters with low vertical temperature gradients. This species exhibited an exceptionally large body size, with an estimated standard length of about 340 mm and total length exceeding 400 mm—substantially larger than modern congeners like Mene maculata (maximum ~240 mm)—indicating niche expansion into opportunistic roles during early percomorph diversification following the mass extinction. Preservation of melanin-based skin patterning in M. rhombea fossils reveals early evolutionary , with a dark dorsum and light ventrum facilitating in open-water environments, a trait shared with modern epipelagic and mesopelagic fishes to reduce visibility to predators from above or below. Longitudinal stripes along the body, approximately 1.5–2 mm thick and up to 120 mm long, further suggest visual signaling or disruption patterns suited to unstructured marine habitats near reefs. Dental and jaw structures in fossil menids imply primarily piscivorous diets akin to those of extant forms, as evidenced by clupeid (sardine) vertebrae in the stomach contents of M. rhombea specimens, indicating active predation on small schooling fishes. Cranial features in M. purdyi, including a broad preopercle and imperforate supraoccipital crest, support a diet incorporating shelled prey such as shrimp alongside fish larvae and copepods, with more robust morphology potentially enabling processing of harder exoskeletons compared to the finer feeding apparatus of modern M. maculata. Schooling behavior in extinct menids is inferred from mass mortality assemblages in lagerstätten like Monte Bolca, where anoxic events preserved clusters of M. rhombea individuals, consistent with gregarious habits that enhanced predator avoidance through confusion effects, as corroborated by stripe patterning. Such formations parallel the coastal schooling observed in living M. maculata, highlighting conserved social adaptations across the ' evolutionary history.

Timeline

The genus Mene originated around 58 million years ago (Ma) during the Thanetian stage of the late , marked by the appearance of Mene purdyi in marine deposits along the eastern Pacific margin of northwestern . This emergence positioned menids among the earliest reliably documented percoid fishes in the post-Cretaceous-Paleogene (K-Pg) recovery phase, following the mass extinction event approximately 66 Ma that reshaped marine ecosystems and facilitated rapid radiation of lineages. During the Eocene epoch (approximately 48–40 Ma), Mene underwent significant diversification, achieving peak with over five documented taxa primarily in Tethyan realms, including Mene rhombea and Mene oblonga from the Lutetian of Monte Bolca, , as well as Mene garviei, Mene sekharani, and Mene iberica from assemblages in and the Eocene Gulf Coast of the . This Eocene expansion coincided with prolonged greenhouse climates that promoted warm, expansive tropical seas, enabling circum-global distribution patterns across the Tethys Sea and adjacent basins, though exceptional preservation in sites like Monte Bolca may introduce a toward higher apparent . Fossil occurrences of Mene declined markedly from the Oligocene into the Miocene, with only sparse records such as the diminutive Mene oblonga var. pusilla from early deposits in Chiavon, , and isolated otoliths referred to Mene sp. from the early Miocene Cantaure Formation in . This reduction in abundance and geographic extent likely reflects cooling ocean temperatures during the Eocene-Oligocene transition and subsequent climatic shifts, coupled with competitive pressures from diversifying perciform clades in temperate and subtropical waters. The record reveals a pronounced gap, with no documented fossils of Mene from the or Pleistocene epochs, underscoring a prolonged absence in the despite ongoing marine . The persisted through survival of the sole extant , Mene maculata, in Indo-Pacific refugia characterized by stable tropical conditions. In the present day, Mene is a monotypic , with M. maculata embodying a of its formerly widespread radiation, confined to Indo-West Pacific waters where it inhabits depths of 50–200 meters.