A New Drynaria (Polypodiaceae) From the Upper Pliocene of Southwest China

Su, Tao, Jacques, Frédéric M.B., Liu, Yu Sheng (Christopher), Xiang, Jianying, Xing, Yaowu, Huang, Yongjiang, Zhou, Zhekun

01 February 2011

A polypodiaceous fern, Drynaria callispora sp. nov., is described from the upper Pliocene Sanying Formation in western Yunnan Province, southwestern China. This species with well-preserved pinnae and in situ spores is the first convincing Drynaria fossil record. Detailed morphological investigation reveals that D. callispora is characterized by 1) pinnatifid fronds with entire-margined pinnae having straight or zigzag secondary veins; 2) finer venation showing void quadrangular areoles, but occasionally with one unbranched veinlet; 3) one row of circular sori on each side of the strong primary vein; and 4) in situ spores with verrucate exospores elliptical in polar view and bean-shaped in equatorial view. A morphological comparison shows that D. callispora is significantly different from all the fossil species previously identified as drynarioids. A phylogenetic analysis of D. callispora supports that the fossil is closely related to D. sinica Diels and D. mollis Bedd., two extant species distributing in the Himalayas. The discovery of the new fern indicates that the genus Drynaria became diversified in its modern distribution region no later than the late Pliocene and had retained a similar ecology to that of many modern drynarioid ferns ever since.

China

drynarioid

in situ spores

pliocene

polypodiaceae

sanying formation

Yunnan

The Intensification of the East Asian Winter Monsoon Contributed to the Disappearance of Cedrus (Pinaceae) in Southwestern China

Su, Tao, Liu, Yu Sheng Christopher, Jacques, Frédéric M.B., Huang, Yong Jiang, Xing, Yao Wu, Zhou, Zhe Kun

01 September 2013

Climate change during the Quaternary played an important role in the distribution of extant plants. Herein, cone scales of Cedrus (Pinaceae) were uncovered from the Upper Pliocene Sanying Formation, Longmen Village, Yongping County of Yunnan Province in southwestern China. Detailed comparisons show that these fossils all belong to the genus Cedrus (Pinaceae), and a new species is proposed, Cedrus angusta sp. nov. This find expands the known distribution of Cedrus during the Late Pliocene to Yunnan, where the genus no longer exists in natural forests. Based on the analysis of reconstructed Neogene climate data, we suggest that the intensification of the East Asian winter monsoon during the Quaternary may have dramatically increased seasonality and given rise to a much drier winter in Yunnan. Combined with information on Cedrus fossil records and its seed physiology, we conclude that the intensification of a drier climate after the Late Pliocene may have prevented the survival of Cedrus seedlings, leading to the eventual disappearance of Cedrus in western Yunnan. This study indicates that the topography in southwestern China acted as a vital refuge for many plants during the Quaternary, but that other species gradually disappeared due to the intensification of the monsoonal climate.

Cedrus

climatic change

cone scale

longmen

monsoon

Pliocene

quaternary

sanying formation

Yunnan

The Intensification of the East Asian Winter Monsoon Contributed to the Disappearance of Cedrus (Pinaceae) in Southwestern China

Su, Tao, Liu, Yu Sheng Christopher, Jacques, Frédéric M.B., Huang, Yong Jiang, Xing, Yao Wu, Zhou, Zhe Kun

01 September 2013

Climate change during the Quaternary played an important role in the distribution of extant plants. Herein, cone scales of Cedrus (Pinaceae) were uncovered from the Upper Pliocene Sanying Formation, Longmen Village, Yongping County of Yunnan Province in southwestern China. Detailed comparisons show that these fossils all belong to the genus Cedrus (Pinaceae), and a new species is proposed, Cedrus angusta sp. nov. This find expands the known distribution of Cedrus during the Late Pliocene to Yunnan, where the genus no longer exists in natural forests. Based on the analysis of reconstructed Neogene climate data, we suggest that the intensification of the East Asian winter monsoon during the Quaternary may have dramatically increased seasonality and given rise to a much drier winter in Yunnan. Combined with information on Cedrus fossil records and its seed physiology, we conclude that the intensification of a drier climate after the Late Pliocene may have prevented the survival of Cedrus seedlings, leading to the eventual disappearance of Cedrus in western Yunnan. This study indicates that the topography in southwestern China acted as a vital refuge for many plants during the Quaternary, but that other species gradually disappeared due to the intensification of the monsoonal climate.

Cedrus

climatic change

cone scale

longmen

monsoon

Pliocene

quaternary

sanying formation

Yunnan

New Fossil Endocarps of Sambucus (Adoxaceae) From the Upper Pliocene in SW China

Huang, Yongjiang, Jacques, Frédéric M.B., Christopher Liu, Yu Sheng, Su, Tao, Xing, Yaowu, Xiao, Xianghui, Zhou, Zhekun

01 February 2012

A new species of fossil endocarp is described from the Sanying Formation of the upper Pliocene at Fudong Village, Lanping County of northwestern Yunnan Province, Southwest China. The endocarps are elliptic, ovate or oblong elliptic, 2.1-2.5. mm long and 1.2-1.7. mm wide. The dorsal face is convex and the ventral is concave or more flattened. The endocarp surface is loosely, transversely or sinuously furrowed and ridged, forming a reticulate and alveolate pattern on the ridges, and the inner wall of the surface cells on the ridges is flaky and scaly. They are morphologically compared with selected extant genera of Adoxaceae and Caprifoliaceae. The interspecific comparisons show diagnostic differences of the fossil endocarps from the selected modern species and other fossil taxa, supporting their recognition as a new species: Sambucus alveolatisemina Huang, Liu et Zhou, sp. nov. Previous records of the reliable Sambucus fossils were from mid-high latitude regions in Europe, northeastern Asia and northern North America. Therefore, it is interesting to note that S. alveolatisemina represents a fossil record from a low latitude region. Sambucus apparently has existed at low latitudes in China at least since the upper Pliocene. A review of other Sambucus fossil occurrences indicates that plants of this genus have been living at higher latitudes in the geological past than they are at present.

Adoxaceae

Sambucus

sanying formation

southwest China

upper Pliocene

Yunnan

Biological Sciences