The Hungarian paleontologist
Franz Nopcsa theorized that "limited resources" found on the island commonly have an effect of "reducing the size of animals" over the generations, producing a localized form of dwarfism. Nopcsa's theory of
insular dwarfism—also known as the
island rule—is today widely accepted.[8]
Geography
While a variety of estimates regarding the prehistoric island's size have been given over the years, the most reliable estimate places it at roughly 80,000 square kilometres (31,000 sq mi) during the Maastrichtian, or about the size of the modern island of
Hispaniola. It was positioned just within the equatorial belt, at about 27°N latitude.[1]
Hațeg Island was probably located at least 200 kilometres (120 mi) from the nearest land mass. To the northwest was an island corresponding to the
Bohemian Massif, to the southeast was an island corresponding to the Balkan–Rhodope Massif (including the modern
Rhodope Mountains region), and to the west was a large island corresponding to part of the modern
Iberian land mass. The closest continental land mass were portions of the Austro-Alpine region to the west and the
Adriatic region to the south.[1]
Hațeg Island itself was surrounded primarily by a deep marine basin, unlike some of the surrounding islands and land masses which were surrounded by shallow seas.[1]
Climate and ecology
During the Maastrichtian, the climate of Hațeg Island was subtropical, with an average temperature of 20–25 °C (68–77 °F).[1] The island experience marked rainy and dry seasons, but despite this, the plant life on the island was mainly tropical in nature. Carbon isotopes indicate "
dry woodland" conditions. This seeming contradiction between the seasonally dry climate and tropical plant species can be explained by the fact that tropical plants can thrive in a seasonally
monsoonal environment today as long as they have access to sufficient amounts of water year-round, and the Hațeg environment seems to have been dominated by braided rivers and lakes. Early rock layers are dominated by volcanic deposits, but these are absent in higher layers, indicating that volcanic activity dropped off during this time.[1]
The local macropredator Hatzegopteryx hunting the herbivore ZalmoxesA restoration of Balaur bondoc and the forest vegetation found in Hațeg IslandReconstruction of Zalmoxes robustus, a herbivorous dinosaur from the Hațeg Island ecosystem
About nine species of dinosaurs, and several species of pterosaur are thought to have been indigenous to the island. These insular
reptiles differed from their continental relatives due to
island syndrome, which describes the differences in morphology, ecology and physiology seen in insular species compared to their continental relatives. Many of them exhibit
island dwarfism, becoming much smaller than their mainland relatives. For example the
titanosaur, Magyarosaurus dacus, had a body mass of only 900 kilograms (2,000 lb)[9][10] while mainland
titanosaurs like Patagotitan could reach 69 tonnes (76 tons). Conversely, Hatzegopteryx exhibited
island gigantism, becoming one of the largest
pterosaurs ever to have lived. Similar to how
extant bird species exhibit reduced wing size and reduced capacity for flight, Balaur bondoc appears to have
secondarily lost its capacity for flight. Balaur is currently believed to be a basal
avialan based on recent
phylogenetic analyses, however, it was originally proposed to be a member of the avialan sister taxon,
Deinonychosauria, based on its limb morphology. Its forelimbs were shorter and stockier than those of
Avialae and so visibly incapable of powered flight, which led to this originally incorrect placement within the phylogeny.
Mammals are almost exclusively represented by the endemic
kogaionidmultituberculates, an endemic group that evolved in the island's isolation and developed unique
insectivorous habits,[11] as well as a single
eutherian remain.[12] Remains of an indeterminate dromaeosaurid have also been found.[13] Among these animals are included:
^Csikia, Z.; M. J. Bentonb (2010). "An island of dwarfs — Reconstructing the Late Cretaceous Hațeg palaeoecosystem". Palaeogeography, Palaeoclimatology, Palaeoecology. 293 (3–4): 265–270.
Bibcode:
2010PPP...293..265C.
doi:
10.1016/j.palaeo.2010.05.032.
^Grigorescu, D. (2005). "Rediscovery of a 'forgotten land': The last three decades of research on the dinosaur-bearing deposits from the Hațeg Basin". Acta Palaeontologica Romaniae. 5: 191–204.
^Tom Baird and Richard Conium.
"Geology of Hațeg". Paleobiology and Biodiversity Research Group, Department of Earth Sciences, University of Bristol. Retrieved March 16, 2020. It was formed by uplift caused by the closing of the Tethys Ocean by the collision of the African and Eurasian plates
^Thierry Smith, Codrea Vlad, Red Iron-Pigmented Tooth Enamel in a Multituberculate Mammal from the Late Cretaceous Transylvanian " Hațeg Island ", Article in PLoS ONE 10(7):e0132550-1-16 · July 2015
DOI: 10.1371/journal.pone.0132550
^Codrea, Vlad; Smith, Thierry; Dica, Paul; Folie, Annelise; Garcia, Géraldine; Godefroit, Pascal; Van Itterbeeck, Jimmy (2002). "Dinosaur egg nests, mammals and other vertebrates from a new Maastrichtian site of the Hațeg Basin (Romania)". Comptes Rendus Palevol. 1 (3): 173–180. doi:10.1016/S1631-0683(02)00021-0. ISSN 1631-0683.