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Monday, January 20th, 2025
| Time | Event | ||||||||
| 2:20a | [PaleoBotany • 2025] Zosterophyllum baoyangense • The smallest Zosterophyllum plant from the Lower Devonian of South China and the divergent life-history strategies in zosterophyllopsids
Abstract Plants have evolved different life-history strategies to overcome limited amounts of available resources; however, when and how divergent strategies of sexual reproduction evolved in early land plants are not well understood. As one of the notable and vital components of early terrestrial vegetation, the Zosterophyllopsida and its type genus Zosterophyllum reached maximum species diversity during the Pragian (Early Devonian; ca 410.8–407.6 million years ago). Here we describe a new species, Zosterophyllum baoyangense sp. nov., based on well-preserved specimens from the Pragian-aged Mangshan Group of Duyun, Guizhou Province, China. The new plant is characterized by its small size, K-shaped branching and tiny spikes with 5–10 sporangia. This plant is most likely r-selected, completing its whole lifespan in a short time, and such a strategy contributes to reproduction in a suitable window time. In contrast, most other species of Zosterophyllum and the zosterophyllopsids on a broader scale are larger in body size and have greater investments in fertile tissues, reflected in the size and total number of sporangia. We argue that the zosterophyllopsids probably benefited from the divergence of various life-history strategies and thus constituted a major part of the Early Devonian floras. Keywords: early land plants, Zosterophyllum baoyangense sp. nov., Early Devonian, life-history strategies
Systematic palaeontology Class: Zosterophyllopsida Hao & Xue [2013] Order: Zosterophyllales Hao & Xue [2013] Family: Zosterophyllaceae Banks [1968] Genus: Zosterophyllum Penhallow [1892] Type species Z. myretonianum Penhallow [1892] Zosterophyllum baoyangense Huang & Xue sp. nov. Specific diagnoses. Rhizome with K-shaped branching. Erect axis with tiny spikes. Axes 0.5−1.3 mm wide. Spikes, 5.8−10.8 mm high and 2.0−2.8 mm in maximum width, consisting of 5–10 sporangia that are spirally arranged. Sporangia oval to semicircular, 1.6−2.0 mm high and 0.9−1.4 mm wide, departing from axis at an acute angle by a short stalk. Thin peripheral rim ca 80 μm wide, extending along the convex distal margin and lacking thickened dehiscence mechanism. Etymology. The specific epithet is derived from Baoyang Village, where the fossils were collected. Holotype designated herein. PB203562
Locality and horizon. Baoyang Section, Baoyang Village, Duyun City, Guizhou Province; the lower part of the Mangshan Group; Early Devonian (Pragian; see electronic supplementary material, figure S1). Repository. All specimens are deposited at the Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences, China. Pu Huang, Jia-Shu Wang, Yi-Ling Wang, Lu Liu, Jing-Yu Zhao and Jin-Zhuang Xue. 2025. The smallest Zosterophyllum plant from the Lower Devonian of South China and the divergent life-history strategies in zosterophyllopsids. Proc. R. Soc. B. 292; 20242337. DOI: doi.org/10.1098/rspb.2024.2337  | ||||||||
| 1:00p | [PaleoOrnithology • 2025] DNA and Spores from Coprolites reveal that Colourful Truffle-like Fungi endemic to New Zealand were consumed by extinct Moa Megalapteryx didinus (Dinornithiformes)
Abstract Mycovores (animals that consume fungi) are important for fungal spore dispersal, including ectomycorrhizal (ECM) fungi symbiotic with forest-forming trees. As such, fungi and their symbionts may be impacted by mycovore extinction. New Zealand (NZ) has a diversity of unusual, colourful, endemic sequestrate (truffle-like) fungi, most of which are ECM. As NZ lacks native land mammals (except bats), and sequestrate fungi are typically drab and mammal-dispersed, NZ’s sequestrate fungi are hypothesized to be adapted for bird dispersal. However, there is little direct evidence for this hypothesis, as 41% of NZ’s native land bird species became extinct since initial human settlement in the thirteenth century. Here, we report ancient DNA and spores from the inside of two coprolites of NZ’s extinct, endemic upland moa (Megalapteryx didinus) that reveal consumption and likely dispersal of ECM fungi, including at least one colourful sequestrate species. Contemporary data from NZ show that birds rarely consume fungi and that the introduced mammals preferentially consume exotic fungi. NZ’s endemic sequestrate fungi could therefore be dispersal limited compared with fungi that co-evolved with mammalian dispersers. NZ’s fungal communities may thus be undergoing a gradual species turnover following avian mycovore extinction and the establishment of mammalian mycovores, potentially affecting forest resilience and facilitating invasion by exotic tree taxa. Keywords: evolutionary anachronism, moa, New Zealand, extinction, ancient DNA, mycophagy
Alexander P. Boast, Jamie R. Wood, Jerry Cooper, Nic Bolstridge, George L. W. Perry and Janet M. Wilmshurst. 2025. DNA and Spores from Coprolites reveal that Colourful Truffle-like Fungi endemic to New Zealand were consumed by extinct Moa (Dinornithiformes). Biol. Lett. 2120; 240440. DOI: doi.org/10.1098/rsbl.2024.0440  | ||||||||
| 1:01p | [Herpetology • 2025] Lycodon poyarkovi • A New Species of Lycodon Fitzinger, 1826 (Serpentes: Colubridae) from the Northern part of the Truong Son Mountains, Central Vietnam
Abstract A new species of the genus Lycodon is described based on four specimens collected from the Phong Nha-Ke Bang National Park and Dong Chau-Khe Nuoc Trong Nature Reserve, Quang Binh Province, Central Vietnam. Lycodon poyarkovi sp. nov. is superficially similar to L. paucifasciatus Rendahl in Smith, but can be distinguished from the latter by the following characters: higher number of ventral scales in males, higher number of subcaudal scales in females, higher number of crossbands on body and tail, by having a lower number of ventral scales before the first crossband starts, and by having lower numbers of vertebrals covered by the first crossband. The new species seems to be endemic to the northern part of Truong Son Mountains, the Ben Hai River, which is considered an important biogeographic barrier between Lycodon poyarkovi sp. nov. and L. paucifasciatus. We suggest that the new species should be considered as Least Concerned (LC) following the IUCN’s Red List categories. Further studies reassessing the taxonomic status of Lycodon anakradaya and L. cardamomensis are required. Reptilia, Indochina, new species, morphology, taxonomy, Lycodon paucifasciatus complex group 
Lycodon poyarkovi sp. nov.
Tan Van NGUYEN and Gernot VOGEL. 2025. A New Species of Lycodon Fitzinger, 1826 from the Northern part of the Truong Son Mountains, Central Vietnam (Reptilia, Squamata, Colubridae). Zootaxa. 5570(3); 484-510. DOI: doi.org/10.11646/zootaxa.5570.3.3 |
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