Steven R. Manchester

(CURRICULUM VITAE)

Curator of Paleobotany
Florida Museum of Natural History

Adjunct Professor
Department of Biology
University of Florida
Gainesville, FL 32611
Ph. 352 273 1935
Home ph. 352 335-6343
Email: steven@flmnh.ufl.edu


Education

B.S. Botany, with honors, Oregon State University, Corvallis, 1977.
B.S. Geology, with honors, Oregon State University, 1977.
M.S. Biology, Indiana University, Bloomington, 1979.
Ph.D. Paleobotany, Indiana University, Bloomington, 1981.

Employment History

Curator of Paleobotany, Florida Museum of Natural History, University of Florida, Gainesville, FL 32611 August 2002-.

Associate Curator of Paleobotany, Florida Museum of Natural History, University of Florida, Gainesville, FL 32611 August 1994-2002.

Assistant Curator of Paleobotany, Florida Museum of Natural History, University of Florida, Gainesville, FL 32611 August 1990-1994.

Associate Scientist, Curator of Fossil Plants, Departments of Geology and Biology, Indiana University, Bloomington, IN 47405 1988-July 1990.

Assistant Scientist, Curator of Fossil Plants, Departments of Geology and Biology, Indiana University, Bloomington, IN 47405 1982-1988.

Director, Summer Field Paleobotany Program, Oregon Museum of Science and Industry, 1976-1989.

Major Research Interests

Evolution of extant angiosperm families in the Northern Hemisphere. Multiple-organ paleobotanical investigations providing characters of flowers, fruits, pollen, leaves and wood for inclusion in phylogenetic analyses. Paleocene and Eocene floras of western North America, central Europe and eastern Asia. I have enjoyed collaborative research with paleobotanists in Canada, China, Czech Republic, England, Germany, Hungary, Japan, Russia, and the United States.

Professional Associations

Botanical Society of America (life membership), Paleobotanical Section. American Society of Plant Taxonomists (life membership); International Organization of Paleobotany; International Association of Wood Anatomists; American Association of Stratigraphic Palynologists.

Recent Service

  • President, International Organisation of Palaeobotany 2016-
  • Acting Treasurer, International Organization of Paleobotany 2008-
  • Advisory Committee, Dept. of Natural History, Florida Museum of Natural History 2008-2013.
  • Graduate Committee, Department of Biology, 2009-2010.
  • Served on “Integration Committee” charged with implementing the involuntary merger of UF Zoology and Botany Departments, June 2008-Jan, 2009.

Teaching

Bot 5115, 5305, Gly 4930, 6932 Paleobotany – lecture and laboratory

Bot 4935/6935/Gly 6932 (grad) Palynology–Systematic Pollen and Spore Morphology (2 credits)
Bot 6935 Systematic fruit and seed morphology-lecture and laboratory (3 credits)
Bot 6935 Systematic Leaf Morphology (2 credits)
Bot 5115 Paleobotany – lecture and laboratory (3 credits)
Bot 5625 Plant Geography – lecture (2 credits)

Post-Doctoral Associates

Dr. Li Xiangchun, 2020; Dr. ZHU Hai, 2018-2019; Dr. Nathan Jud, 2014-2015, Dr. Xie San-Ping 2012-2013; Dr. Qi Wang 2011, Dr. Herbert Meyer, 1990-1993; Dr. Huang Qiangsheng, 1993-1994; Dr. Michael Wiemann, 1995-1996.

Graduate Students

Amy McClain, 1998-2000 (MS, Botany); Iju (Judy) Chen, 2001-2009 (PhD, Botany); Sarah Corbett, 2001-2004 (MS, Botany); Elizabeth O’Leary 2005-2007 (MS, Botany), Fabiany Herrera (PhD, Botany/Biology, 2008-2014); Paula Mejia (PhD, Botany, 2005-2015); Greg Stull (PhD, Biology 2010-2016); Sarah Allen (PhD, Biology 2010-); Rebecca Koll (Biology 2011-); Mackenzie Smith (Biology, 2017-); Julian Correa (Biology, 2019-); Indah Huegele (Biology, 2018-).

Research Publications by Plant Families

(keyed by the publication numbers listed below)

Achariaceae: 188, Actinidiaceae: 50, 37, Adoxaceae: 211, Alangiaceae: 150, 83, 50, Anacardiaceae: 241, 209, 203, 191, 188, 150, 146, 143, 111, 83, 50, 1, Altingiaceae: 150, Annonaceae: 191, 144, 83, 37, Apiaceae: 126, Apocynaceae: 234, 150, Araliaceae: 160, 83, 77, 37, Arecaceae: 211, 208, 183, 150, 146, 144, 143, Asterids: 179, Berberidaceae: 192, 50, Betulaceae: 238, 235, 168, 95, 89, 83, 77, 70, 68, 66, 61, 55, 50, 45, 43, 42, 37, 25, 15, Bignoniaceae: 150, Brassicaceae: 126, Burseraceae: 190, 150, Cannabaceae: 150, Canellaceae: 143, Caprifoliaceae: 77, 50, 41, Celtidaceae: 83, 37, 24, Cercidiphyllaceae: 160, 83, Cheirolepidiaceae: 151, Chloranthaceae: 151, Combretaceae: 126, Cornaceae sl.: 244, 120, 107, 101, 96, 87, 78, 60, 58, 50, 37, 25, Cupressaceae: 147, 195, 64, 50, Cyathaceae: 151, Cycadales: 170, 142, Cyclanthaceae: 150, Cyperaceae: 211, 150, Doliostrobaceae: 150, Elaeocarpaceae: 227, 150, 72, 60, Ephedraceae: 151, 194, , 191, Ericaceae: 217, Eudicot: 230, 224, 221, 201, 198, 158, Eucommiaceae: 77, 66, 62, 60, Euphorbiaceae: 242, 218, 150, 144, Fabaceae: 232, 231, 211, 150, 144, 126, Fagaceae: 238, 211, 92, 83, 71, 60, 50, 37, 9, Gnetaceae 194, Hamamelidaceae: 160, 150, 83, 60, 50, 37, Hernandiaceae: 228, 126, Humiriaceae: 167, 146, 144, 127, Hydrangeaceae: 60, 50, 37, Icacinaceae: 220, 184, 175, 150, 148, 144, 137, 114, 50, 45, 37, Juglandaceae: 238, 211, 204, 166, 155, 150, 106, 83, 66, 60, 50, 46, 45, 39, 37, 34, 27, 25, 22, 18, 14, 8, 7, 6, Lamiales: 188, 146, Lauraceae: 211, 150, 143 83, 50, 37, Lecythidaceae: 188, Leeaceae: 152, 144, Lythraceae: 150, 37, Magnoliaceae; 150, 83, 37, Malpighiaceae: 67, Malvaceae (incl. Tiliac, Sterc): 191, 188, 176, 165, 163, 144, 126, 100, 99, 83, 80, 79, 77, 50, 38, 31, 4, 3, 2, Marsileaceae: 218, 191, Mastixiaceae: 210, 150, Meliaceae: 177, Menispermaceae: 193, 150, 140, 37, 35, 5, Moraceae: 188, 172, Musaceae: 40, 37, 35, Myricaceae: 238, Myristicaceae: 150, 116, Myrtaceae: 188, 52, Nothofagaceae: 238, Nymphaeaceae: 94, Nyssaceae: 222, 150, 105, 78, 60, 50, Oleaceae: 211, 180, Palmae: 191, 77, 44, 37, Pentaphylaceae: 150, Pinaceae: 211, 77, 50, 37, Platanaceae: 240, 239, 215, 211, 169, 160, 90, 83, 71, 70, 50, 37, 25, 19, 12, Podomogetonaceae: 77, Polygalaceae: 182, Polygonaceae: 126, Pteridaceae: 211, Rosaceae: 118, 83, 50, 37, Rhamnaceae: 211, 173, 150, 126, 125, 115, 60, 38, Rubiaceae: **, Rutaceae: 156, 150, 126, 108, Sabiaceae: 212, 197, 150, 84, 83, 37, 36, 25, 5, Salicaceae: 211, 121, 102, 88, 77, 10, Sapindaceae (incl. Acerac, Hippocast.): 154, 144, 126, 83, 76, 74, 73, 69, 66, 60, 37, Sapotaceae: 150, Sargentodoxaceae: 60, Schisandraceae: 37, Schizaeaceae: 16, Simaroubaceae: 188, 150, 93, Sladeniaceae: 214, Staphyleaceae: 226, 212, Symplocaceae: 212, 206, 171, 37, Tapisciaceae: 150, 37, 17, Taxaceae: 50, 37, Ticodendraceae: 139, Torricelliaceae: 219, 189, 150, 60, Trochodendraceae: 233, 202, 200, 103, 60, 30, 28, 25, Ulmaceae: 236, 211, 178, 165, 150, 122, 112, 86, 83, 77, 76, 60, 50, 37, 24, 23, Uncertain: 225, 218, 216, 213, 212, 211, 199, 196, Urticales: 160, Vitaceae: 223, 212, 211, 205, 188, 157, 152, 150, 146, 145, 144, 110, 83, 37, Zamiaceae: 59, 142, Zingiberaceae: 229, 191.

Research Publications by Geologic Age and Geography

(keyed by the publication numbers listed below)

Jurassic of China: 174, Jurassic of United States: 237, Cretaceous of Antarctica: 238, Cretaceous of South America: 151, 125, Cretaceous/Paleocene of India: 230, 229, 219, 218, 213, 208, 196, 191, 188, 183, 181, 180, 177, 157, 141, Cretaceous of Kansas, Montana, Nebraska, North Dakota, Wyoming: 198, 126, Cretaceous of North America: 225, 224, Cretaceous of Eurasia: 201, 197, Cretaceous of Northern Hemisphere: 238, 179, 147, Cenozoic of Northern Hemisphere: 238, 197, 179, 171, 155, 154, Tertiary of Antarctica: 238, Tertiary of South America: 171, 127, Paleogene of North & South America: 235, 223, 212, 148, Paleocene of Wyoming, Montana, and/or North Dakota: 233, 195, 193, 169, 138, 123, 120, 114, 105, 95, 84, 82, 78, 74, 73, 71, 59, 58, 55, 46, 43, 28, 25, 22, 14, 6, Paleocene of eastern Asia: 122, 85, 84, 82, 78, 71, 58, 42, 28, Paleocene of South America: 165, 140, Paleocene of Greenland: 71, 28, Paleocene of Scotland: 19, Eocene of Europe: 244, 210, 203, 193, 189, 185, 184, 150, 149, 139, 124, 116, 112, 111, 107, 90, 86, 49, 39, 22, 14, 13, Eocene of Asia: 239, 236, 234, 228, 122, 97, 94, 68, 65, 62, 22, 14, Eocene of Panama: 203, 167, Eocene of Peru: 146, Early Eocene of Wyoming: 175, 143, Middle Eocene of Oregon, Washington or British Columbia: 240, 239, 238, 236, 202, 193, 189, 170, 168, 160, 139, 126, 123, 104, 98, 92, 89, 83, 74, 59, 45, 40, 37, 35, 34, 31, 27, 26, 24, 22, 17, 14, 13, 12, 9, 8, 4, 3, 2, 1, Middle Eocene of Rocky Mountain region: 243, 241, 238, 216, 172, 153, 126, 123, 102, 88, 69, 65, 56, 54, 31, 23, 22, 16, 14, 13, 12, 10, 6, Late Eocene of Alaska: 142, Late Eocene of Oregon: 193, 109, 74, 66, 65, 53, 41, 31, 22, 14, Late Eocene of Colorado: 113, 77, 74, 65, 41, 31, 24, 23, 22, 15, 14, 13, 9, Eocene of Mississippi, Tennessee: 221, 126, Early Oligocene of Oregon: 74, 70, 64, 50, 48, 38, 29, 26, 21, 15, 14, 13, Early Oligocene of Montana: 226, 126, Early Oligocene of Peru: 242, 199, 167, 152, 144, Oligocene of Europe: 238, 159, 126, 90, 72, 70, 67, 64, 49, 29, 24, 14, Oligocene of Africa: 220, Oligocene of China: 227, 203, 193, 192, 190, 182, Oligocene of Australia: 203, Miocene of Oregon, Idaho and Washington: 217, 215, 204, 200, 158, 103, 64, 41, 38, 14, Miocene of Florida: 211, 60, 44, Miocene of Vermont: 206, Miocene of Panama: 209, 167, 166, 164, Miocene of Europe: 203, 189, 159, 121, 108, 90, 80, 79, 64, 38, 29, 24, 14, Miocene of Africa: 203, Miocene of Asia: 232, 231, 227, 214, 190, 178, 176, 173, 163, 158, 65, 30, 24, 14.

Research Publications

(* indicates paper reprints available on request)

244Manchester, S.R. and Collinson M.E. 2022. Mastixioid fruits (Cornales) from the early Eocene London Clay flora: morphology, anatomy and nomenclatural revision. Fossil Imprint.

243Tiffney, B.H., and S.R. Manchester 2022. The early middle Eocene Wagon Bed carpoflora of central Wyoming, U.S.A. Fossil Imprint.

242Hamersma, A., Herrera, F., Wurdack, K. and Manchester, S.R., 2022. Belenocarpa tertiara (Berry) gen. et comb. nov. (Euphorbiaceae): Fossil Fruits with Carunculate Seeds from the Oligocene of Peru. International Journal of Plant Sciences, 183(4): ***-***.

241Manchester SR and WS Judd 2022. Extinct anacardiaceous samaras and sumac-like leaves from the Eocene of western North America. International Journal of Plant Sciences, 183(5): ***-***.

240Huegele IB and S.R. Manchester. 2022. Newly recognized reproductive structures linked with Langeria from the Eocene of Washington, USA, and their affinities with Platanaceae. International Journal of Plant Sciences, 183(5): ***-***.

239Huegele, I.B., Zhu, H., Zhao, B., Wang, Y.F. and Manchester, S.R., 2022. Trans-Beringial distribution of Platimeliphyllum (Platanaceae) in the Eocene of Eastern Asia and Western North America. International Journal of Plant Sciences, 183(2):139-153. https://doi.org/10.1086/717692

238Wheeler, E.A., Baas, P. and Manchester, S.R., 2022. Wood anatomy of modern and fossil Fagales in relation to phylogenetic hypotheses, familial classification, and patterns of character evolution. International Journal of Plant Sciences, 183(1): 61-86. https://doi.org/10.1086/717328

237Manchester, S.R., Zhang, X., Hotton, C.L., Wing, S.L. and Crane, P.R., 2021. Distinctive quadrangular seed-bearing structures of gnetalean affinity from the Late Jurassic Morrison Formation of Utah, USA. Journal of Systematic Palaeontology, 19(10): 743-760. https://doi.org/10.1080/14772019.2021.1968522

236Yann Fragni e, Yi-Gang Song, L. Fazan, S.R. Manchester, G. Garf , and G. Kozlowski 2021. Biogeographic Overview of Ulmaceae: Diversity, Distribution, Ecological Preferences, and Conservation Status.  Plants. 2021, 10, 1111. https://doi.org/10.3390/plants10061111

235Correa-Narvaez, Julian E., S. R. Manchester. 2021. Distribution and Morphological Diversity of Palaeocarpinus (Betulaceae) from the Paleogene of the Northern Hemisphere. The Botanical Review. [43 pp.] https://doi.org/10.1007/s12229-021-09258-y

234Singh, H., Judd, W.S., Samant, B., Agnihotri, P., Grimaldi, D.A. and Manchester, S.R., 2021. Flowers of Apocynaceae in amber from the early Eocene of India. American Journal of Botany 108(5): 883–892. https://doi.org/10.1002/ajb2.1651

233 Soltis, D., P. Soltis, P. Endress, M. Chase, S. Manchester, W. Judd, L. Majure, & E. Mavrodiev. 2018. Phylogeny and Evolution of the Angiosperms, revised and updated edition. University of Chicago Press 580 pp.

232Li, Xiang-Chuan S.R. Manchester, Liang Xiao,Qin Wang,Yi Hu and Bai-Nian Sun. 2021. Ormosia (Fabaceae: Faboideae) from the Miocene of southeastern China support historical expansion of the tropical genus in East Asia.  Historical Biology, 33(12): 3561-3578. https://doi.org/10.1080/08912963.2021.1877700

231Li, Xiang-Chuan, S.R. Manchester, Qin Wang, Liang Xiao, Tian Long Qi, Yun Zhi Yao, Dong Ren, and Qiang Yang. 2021. A unique record of Cercis from the late early Miocene of interior Asia and its significance for paleoenvironments and paleophytogeography. Journal of Systematics and Evolution, 59(6): 1321-1338. https://doi.org/10.1111/jse.12640

230Rameteke D,  S.R. Manchester , V. D. Nagrale, S. Y. Smith.  2020. Singpuria, a new genus of Eudicot flower from the latest Cretaceous Deccan Intertrappean Beds of India. Acta Palaeobotanica 60(2): 323-332. https://doi.org/10.35535/acpa-2020-0017

229Smith, S.Y., Kapgate, D.K., Robinson, S., Srivastava, R., Benedict, J.C. and Manchester, S.R., 2021. Fossil Fruits and seeds of Zingiberales from the Late Cretaceous-Early Cenozoic Deccan Intertrappean Beds of India. International Journal of Plant Sciences, 182(2): 91-108. https://doi.org/10.1086/711474

228Wang T, C Del Rio, SR Manchester, J 517 Liu, F Wu, W Deng, T Su, Z Zhou. 2020. Fossil fruits of Illigera (Hernandiaceae) from the Eocene of central Tibetan Plateau. Journal of Systematics and Evolution: 59(6): 1276-1286. https://doi.org/10.1111/jse.12687

227Liu, X.Y., Manchester, S.R., Rozefelds, A.C., Quan, C. and Jin, J.H. 2022. First fossil fruits of Elaeocarpus (Elaeocarpaceae) in East Asia: implications for phytogeography and paleoecology. Journal of Systematics and Evolution, 60(2): 456-471.  doi.org/10.1111/jse.12684

226Zhu, H., and Manchester, S.R., 2020. Fruit of Staphylea (Staphyleaceae) from the Oligocene of Montana, USA. Review of Palaeobotany and Palynology, 280:  104275. https://doi.org/10.1016/j.revpalbo.2020.104275

225Zhang X, Wang Y, Dilcher DL, Manchester SR. 2021. Morphology and epidermal anatomy of Tricalycites, a winged propagule from the Cretaceous of North America. Cretaceous Research, 119: 104700. https://doi.org/10.1016/j.cretres.2020.104700

224Zhang, X., Wang, Y., Dilcher, D.L. and Manchester, S.R., 2020. Wireroadia, a new genus of winged fruit from the Cretaceous of Alabama and New England, USA. International Journal of Plant Sciences, 181(9): 898-910. https://doi.org/10.1086/710492

223Manchester, S. R., 2020.  Morphology and affinities of Ampelocissites seeds (Vitaceae: Ampelopsis Clade) from the Paleogene of Texas, USA. Systematic Botany, 45(3): 478-482. https://doi.org/10.1600/036364420X15935294613400

222Manchester, S.R., Kvacek, Z. and Judd, W.S., 2021. Morphology, anatomy, phylogenetics and distribution of fossil and extant Trochodendraceae in the Northern Hemisphere. Botanical Journal of the Linnean Society.  195, (3): 467–484. https://doi.org/10.1093/botlinnean/boaa046

221Reback, R.G. & S.R. Manchester, 2020. New data on the winged fruits of Carpolithus prangosoides Berry from the Eocene of western Tennessee and Kentucky. Acta Palaeobotanica 60(1): 199-206. DOI:  10.35535/acpa-2020-0009 

220Stull, G.W., B.H. Tiffney, S.R. Manchester, C. Del Rio & S L. Wing. 2020. Endocarps of Pyrenacantha (Icacinaceae) from the Early Oligocene of Egypt. International Journal of Plant Sciences 181: 432-442. https://doi.org/10.1086/706854

219Manchester, S.R., Kapgate, D.K., Smith, S.Y., Patil, S.P., Ramteke, D. & Matsunaga, K. 2020. Morphology and affinities of Pantocarpon fruits (cf. Apiales: Torricelliaceae) from the Maastrichtian Deccan Intertrappean Beds of central India. International Journal of Plant Sciences 181: 443-451. https://doi.org/10.1086/706856

218Samant, B., D. Kumar, D.M. Mohabey, D.K. Kapgate, S.R. Manchester & S. K. Patil. 2020. Palynoflora from intertrappean localities in southeastern part of Deccan volcanic province: taxonomic composition, age and paleogeographic implications. Palaeoworld 29: 161-175. DOI: 10.1016/j.palwor.2019.05.010

217Smith, M. & Manchester, S.R. 2019. A new species of gigantic capsular fruits of Vaccinioideae from the Miocene of Idaho. Palaeontologia Electronica 22.3.65, 1 . DOI: 10.26879/982

216Manchester, S.R. & Lott, T.A., 2019. Bonanzacarpum sprungerorum sp. nov.  Bizarre fruit from the Eocene Green River Formation in Utah, USA. Fossil Imprint, 75: 281-288. DOI: 10.2478/if-2019-0016

215Huegele, I.B., Spielbauer, R.J. & Manchester, S.R., 2020. Morphology and systematic affinities of Platanus dissecta Lesquereux (Platanaceae) from the Miocene of western North America. International Journal of Plant Sciences. 181:324-341 with cover photo. DOI: 10.1086/706453

214Jia, L.B., Manchester, S.R., Huang, J., Su, T., Xue, L., Zhang, S.T., Huang, Y.J. & Zhou, Z.K., 2021. First fossil record of an East Asian endemic genus Sladenia (Sladeniaceae) from its modern range: implications for floristic evolution and conservation biology. Journal of Systematics and Evolution, 59(1): 216-226. DOI: 10.1111/jse.12518

213Manchester, S.R., D.K. Kapgate, D.D. Ramteke, S.P. Patil & S.Y. Smith 2019. Morphology and anatomy of the angiosperm fruit Baccatocarpon, incertae sedis, from the Maastrichtian Deccan Intertrappean Beds of India. Acta Palaeobotanica 59: 241-250. DOI: 10.2478/acpa-2019-0019

212Huegele, I.B. & S.R. Manchester 2019. Newly recognized diversity of fruits and seeds from the Late Paleogene flora of Trinity County, east Texas, USA. International Journal of Plant Sciences 180: 681-708. DOI: 10.1086/704358

211Lott, T.A., Manchester, S.R. & Corbett, S.L., 2019. The Miocene flora of Alum Bluff, Liberty County, Florida. Acta Palaeobotanica, 59(1), pp.75-129. DOI: 10.2478/acpa-2019-0003

210Manchester, S.R. & Collinson, M.E., 2019. Fruit morphology, anatomy and relationships of the type species of Mastixicarpum and Eomastixia (Cornales) from the late Eocene of Hordle, southern England. Acta Palaeobotanica, 59: 51-67. DOI: 10.2478/acpa-2019-0006

209Herrera, F., Carvalho, M.R., Jaramillo, C. & Manchester, S.R. 2019. 19-million-year-old spondioid fruits from Panama reveal a dynamic dispersal history for Anacardiaceae. International Journal of Plant Sciences 180: 479-492. DOI: 10.1086/703551

208Matsunaga, K.K., Manchester, S.R., Srivastava, R., Kapgate, D.K. & Smith, S.Y., 2019. Fossil palm fruits from India indicate a Cretaceous origin of Arecaceae tribe Borasseae. Botanical Journal of the Linnean Society 190: 260-280. DOI: 10.1093/botlinnean/boz019

207Liu Xiaoyan & S.R. Manchester 2019.  Editorial:  Ecological and biogeographic implications of Asian Cenozoic fossil floras. Journal of Systematics and Evolution. 57 (2): 91-93. DOI: 10.1111/jse.12488

206Tiffney, B.H., Manchester, S.R. & Fritsch, P.W., 2018. Two new species of Symplocos based on endocarps from the early Miocene Brandon Lignite of Vermont, USA. Acta Palaeobotanica 58: 185-198. DOI: 10.2478/acpa-2018-0008

205Wen, J., Lu, L.M., Nie, Z.L., Liu, X.Q., Zhang, N., Ickert-Bond, S., Gerrath, J., Manchester, S.R., Boggan, J. & Chen, Z., 2018. A new phylogenetic tribal classification of the grape family (Vitaceae). Journal of Systematics and Evolution. 56: 262-272. DOI: 10.1111/jse.12427

204Smith, M. & Manchester, S.R., 2018. Nut of Juglans bergomensis (Balsamo Crivelli) Massalongo in the Miocene of North America. Acta Palaeobotanica, 58:199-208. DOI: 10.2478/acpa-2018-0011

203Herrera, F., Mitchell, J.D., Pell, S.K., Collinson, M.E., Daly, D.C. & Manchester, S.R., 2018. Fruit morphology and anatomy of the spondioid Anacardiaceae. Botanical Review, 84: 315-393. DOI: 10.1007/s12229-018-9201-1

202Manchester, S.R., K.B. Pigg, Z. Kvaček, M, L. DeVore & R.M. Dillhoff. 2018. Newly recognized diversity in Trochodendraceae from the Eocene of western North America. International Journal of Plant Sciences, 179: 663–676. DOI: 10.1086/699282

201Manchester, S.R., L.B. Golovneva, D.D. Sokoloff & E.M. Friis. 2018. Early eudicot reproductive structure: Fruit and flower morphology of Ranunculaecarpus Samyl. from the Early Cretaceous of eastern Siberia. Acta Palaeobotanica 58: 121-133. DOI: 10.2478/acpa-2018-0017

200Manchester, S.R., Pigg, K.B. & DeVore, M.L. 2018. Trochodendraceous fruits and foliage in the Miocene of western North America. Fossil Imprint. Praha 74: 45-54. DOI: 10.2478/if-2018-0004

199Manchester, S.R. & B. Balmaki 2018. Spiny fruits revealed by nano-CT scanning: Pseudoanacardium peruvianum (Berry) gen. et comb. nov. from the early Oligocene Belen flora of Peru. Acta Palaeobotanica 58: 41-48. DOI: 10.2478/acpa-2018-0005

198Manchester, S.R., D.L. Dilcher, W.S. Judd, B. Corder & J.F. Basinger. 2018. Early Eudicot flower and fruit: Dakotanthus gen. nov. from the Cretaceous Dakota Formation of Kansas and Nebraska, USA. Acta Palaeobotanica 58: 27-40. DOI: 10.2478/acpa-2018-0006

197Yang, T., Lu, L.M., Wang, W., Li, J.H., Manchester, S.R., Wen, J. & Chen, Z.D., 2018. Boreotropical range expansion and long-distance dispersal explain two amphi-Pacific tropical disjunctions in Sabiaceae. Molecular phylogenetics and evolution. 124: 181-191. DOI: 10.1016/j.ympev.2018.03.005

196Matsunaga, K.S., S. Y. Smith, S.R. Manchester, D. Kapgate, D. Ramteke, A. Garbout & H. Villarraga-G ez 2018. Reinvestigating an enigmatic Late Cretaceous monocot: morphology, taxonomy, and biogeography of Viracarpon. Peer J.  :e4580; DOI: 10.7717/peerj.4580 [32 pp.]

195Long Li, Jian-Hua Jin & S.R. Manchester 2018 Cupressaceae fossil remains from the Paleocene of Carneyville, Wyoming. Review of Palaeobotany and Palynology 251:1-13. DOI: 10.1016/j.revpalbo.2017.12.003

194Mejia-Velasquez, P. J., S.R. Manchester, C.A. Jaramillo, L.Quiroz & L. Fortini 2018. Floristic and climatic reconstructions of two Lower Cretaceous successions from Peru. Palynology 42(3): 420-433. DOI: 10.1080/01916122.2017.1373310

193Han Meng, S.R. Manchester, Q-Y Fu, J-H Jin, C Quan & Q Hua, J. 2017. Paleogene fossil fruits of Stephania (Menispermaceae) from North America and East Asia. Journal of Systematics and Evolution. 56: 81-91. DOI: 10.1111/jse.12288

192Huang, Y.-F. Chen, S.R. Manchester, 2017 Mahonia fossils from the Oligocene of South China: Taxonomic and biogeographic implications. Palaeoworld 26: 691-698. DOI: 10.1016/j.palwor.2017.03.004

191Thakre, D., B. Samant, D. M. Mohabey, S. Sangode, P. Srivastava, D. K. Kapgate, R. Mahajan, N. Upreti & S.R. Manchester 2017. A new insight into age and environments of intertrappean beds of Mohgaon Kalan, Chhindwara District, Madhya Pradesh using palynology, megaflora, magnetostratigraphy and clay mineralogy. Current Science. 112: 2193-2197. https://www.jstor.org/stable/26163820

190Han, M., S.R. Manchester, V. Wu, J. Jin & C. Quan. 2017. Fossil fruits of Canarium (Burseraceae) from Eastern Asia and their implications for phytogeographical history. Journal of Systematic Palaeontology, 16(10): 841-852. DOI: 10.1080/14772019.2017.1349624

189Manchester, S.R., Collinson, M.E., Soriano, C. & Sykes, D. 2017. Homologous fruit characters in geographically separated genera of extant and fossil Torricelliaceae (Apiales). International Journal of Plant Sciences 178: 567-579. DOI: 10.1086/692988

188Wheeler, E.A., R. Srivastava, S.R. Manchester & P. Baas. 2017. Surprisingly modern Latest Cretaceous earliest Paleocene woods of India. International Association of Wood Anatomists Journal 38: 456-542. DOI: 10.1163/22941932-20170174

187Kapgate, D., S.R. Manchester & W. Stuppy. 2017. Oldest fruit of Phyllanthaceae from the Deccan Intertrappean Beds of Singpur, Madhya Pradesh, India. Acta Palaeobotanica 57: 33-38. DOI: 10.1515/acpa-2017-0004

186Baas, P., S.R. Manchester, E.A. Wheeler & R. Srivastava. 2017. Fossil wood with dimorphic fibers from the Deccan Intertrappean Beds of India the oldest fossil Connaraceae?. IAWA Journal 38: 124-133. DOI: 10.1163/22941932-20170162

185Collinson, M. E., N.F. Adams, S.R. Manchester, G.W. Stull, F. Herrera, S. Y. Smith, M. J. Andrew, P. Kenrick, and D. Sykes. 2016. X-ray micro-computed tomography (micro-CT) of pyrite-permineralized fruits and seeds from the London Clay Formation (Ypresian) conserved in silicone oil: a critical evaluation.  Botany, 94 (9): 697-711. https://doi.org/10.1139/cjb-2016-0078

184Stull, G.W., N.F. Adams, S.R. Manchester, D. Sykes, and M.E. Collinson. 2016. Revision of Icacinaceae from the Early Eocene London Clay flora based on X-ray micro-CT. Botany, 94 (9): 713-745. https://doi.org/10.1139/cjb-2016-0063

183Manchester, S.R.,  S.D. Bonde, D.S. Nipunage, R. Srivatava, R.C. Mehrotra & S.Y. Smith 2016. Trilocular palm fruits from the Deccan Intertrappean Beds of India. Int. J. Plant Sci., 177(7):633–641. https://doi.org/10.1086/687290

182Chen, Y-R, S.R.Manchester 2015. Winged Fruits of Deviacer in the Oligocene from the Ningming Basin in Guangxi, South China. PLoS ONE, 10(12): e0144009. https://doi.org/10.1371/journal.pone.0144009

181Smith S.Y., S.R. Manchester, B. Samant, D.M. Mohabey, E.A. Wheeler, P. Baas, D. Kapgate, R. Srivastava, and N.D. Sheldon. 2015. Integrating paleobotanical, paleosol, and stratigraphic data to study critical transitions: a case study from the Late Cretaceous-Paleocene of India. Pgs. 137–166 in Earth-Life Transitions: Paleobiology in the Context of Earth System Evolution. The Paleontological Society Papers, Volume 21, P. David Polly, Jason J. Head, and David L. Fox (eds.). The Paleontological Society Short Course, October 31, 2015. https://doi.org/10.1017/S1089332600002990

180Srivastava, R., E.A. Wheeler, S.R. Manchester, and P. Baas. 2015. Wood of Oleaceae from the latest Cretaceous of India – the earliest olive branch? IAWA Journal, 36 : 443–451. https://doi.org/10.1163/22941932-20150113

179Manchester, S.R., F. Grímsson, and R. Zetter. 2015. Assessing the fossil record of Asterids in the context of our current phylogenetic framework. Ann. Missouri Bot. Gard., 100: 329–363. doi: 10.3417/2014033

178Jia, Lin‑Bo, S.R. Manchester, T. Su, Y.‑W. Xing, W.‑Y. Chen, Y.‑J. Huang, and Z.‑K. Zhou. 2015. First occurrence of Cedrelospermum (Ulmaceae) in Asia and its biogeographic implications. Journal of Plant Resaearch,  128(5): 747–761. https://doi.org/10.1007/s10265-015-0739-2

177Baas, P., R.Srivastava, S.R. Manchester, and E.A. Wheeler. 2015. Circular or spherical vessels in the fossil record. IAWA Journal, 36 (2): 152–157. https://doi.org/10.1163/22941932-00000092

176Lebreton Anberrée, J., S.R. Manchester, J. Huang, S. Li, Y.Wang, and Z.-K. Zhou. 2015. First fossil fruits and Leaves of Burretiodendron s.l. (Malvaceae s.l.) in Southeast Asia: Implications for taxonomy, biogeography, and paleoclimate. International Journal of Plant Sciences, 176(7): 682–696. https://doi.org/10.1086/682166

175Allen, S.E., G.W. Stull, and S.R. Manchester. 2015. Icacinaceae from the Eocene of western North America.  American Journal of Botany, 102 (5): 725–744. https://doi.org/10.3732/ajb.1400550

174Na, Yuling, S.R. Manchester, C. Sun and S. Zhang. 2015. The Middle Jurassic palynology of the Daohugou area, Inner Mongolia, China, and its implications for palaeobiology and palaeogeography. Palynology, 39: 270–287. https://doi.org/10.1080/01916122.2014.961664

173Liu, K.N., S.-P. Xie, S.R. Manchester, Y.-F. Wang, Y. Shao, and B.-K. Li. 2015. Samaras of Ventilago (Rhamnaceae) from the upper Miocene of Lincang, Yunnan, China and their phytogeographic implications. Journal of Systematics and Evolution, 53 (3): 252–258. https://doi.org/10.1111/jse.12136

172Boonchai, N., S.R. Manchester, and E.A. Wheeler. 2015. Welkoetoxylon multiseriatum: fossil moraceous wood from the Eocene Green River Formation, Wyoming, U.S.A. IAWA Journal, 36 (2): 158–166. https://doi.org/10.1163/22941932-00000093

171Fritsch, P. W., S.R. Manchester, R.D. Stone, B.C. Cruz, and F. Almeda. 2015. Northern Hemisphere origins of the amphi-Pacific tropical plant family Symplocaceae. Journal of Biogeography. Journal of Biogeography, 42: 891–901. https://doi.org/10.1111/jbi.12442

170Erdei, B., and S.R. Manchester. 2015. Ctenis clarnoensis sp. n., an unusual cycadalean foliage from the Eocene Clarno Formation, Oregon.  International Journal of Plant Sciences, 176 (1): 31-43. https://doi.org/10.1086/678467

169Manchester, S.R. 2014. Revisions to Roland Brown’s North American Paleocene flora. Acta Musei Nationalis Pragae, Ser. B – Historia Naturalis, 70 (3–4): 153–210.

168Liu Xiaoyan, S.R. Manchester, and J. Jianhua. 2014. Alnus subgenus Alnus in the Eocene of western North America based on leaves, associated catkins, pollen, and fruits. American Journal of Botany, 101 (11): 1925–1943. https://doi.org/10.3732/ajb.1400228

167Herrera, F., S.R. Manchester, J. Vélez-Juarbe, and C. Jaramillo. 2014. Phytogeographic history of the Humiriaceae (Part 2). International Journal of Plant Sciences, 175(7): 828–840. https://doi.org/10.1086/676818

166Herrera, F., S.R. Manchester, R. Koll, and C. Jaramillo. 2014. Fruits of Oreomunnea (Juglandaceae) in the early Miocene of Panama. Pp. 124–133 in Stevens, W.D., O.M. Montiel, and P.H. Raven (eds.), Paleobotany and Biogeography. Missouri Botanical Garden, St. Louis, 404 pp.

165Herrera F., S.R. Manchester, S.R., M.R. Carvalho, C. Jaramillo, and S.L. Wing. 2014. Paleocene wind-dispersed fruits and seeds from Colombia and their implications for early Neotropical rainforests.  Acta Palaeobotanica, 54(2): 197–229. DOI: 10.2478/acpa-2014-0008.

164Jaramillo, C., E. Moreno, V. Ramírez, S. da Silva, Atria de la Barrera, Adara de la Barrera, C. Sánchez, S. Morón, F. Herrera, J. Escobar, R. Koll, S. R. Manchester, and Natalia Hoyos. 2014. Palynological record of the last 20 million years in Panama. Pp. 134-251 in Stevens, W.D., O.M. Montiel, and P.H. Raven (eds), Paleobotany and Biogeography.  Missouri Botanical Garden, St. Louis, 404 pp.

163Xie Sanping, S.R. Manchester, K. Liu, Y.-f. Wang, Y. Shao. 2014. Firmiana (Malvaceae: Sterculioideae) fruits from the Upper Miocene of Yunnan, Southwest China. Geobios, 47: 271–279. https://doi.org/10.1016/j.geobios.2014.03.005

162Manchester, S.R., L. Calvillo-Canadell, S.R.S. Cevallos-Ferriz. 2014. Assembling extinct plants from their isolated parts. Boletín de la Sociedad Geológica Mexicana 66 (1): 53–63.

161Manchester, S.R. 2014. Presentation of the 2013 Paleontological Society Medal to Estella B. Leopold.  Journal of Paleontology, 88 (3):619–621. http://DOI: https://doi.org/10.1666/0022-3360-88.3.619

160Wheeler, E.A., and S.R. Manchester. 2014. Middle Eocene trees of the Clarno Petrified Forest, John Day Fossil Beds National Monument, Oregon. PaleoBios, 30(3): 105–114. https://doi.org/10.5070/P9303022471

159Manchester, S.R., and P.W. Fritsch. 2014. European fossil fruits of Sphenotheca related to extant Asian species of Symplocos. Journal of Systematics and Evolution, 52 (1): 68–74. https://doi.org/10.1111/jse.12060

158Manchester, S.R., and K. Uemura. 2013. Ozakia, a new genus of winged fruit shared between the Miocene of Japan and western North America. Journal of Plant Research, 127(2): 187–192. https://doi.org/10.1007/s10265-013-0602-2

157Manchester, S.R., D.K. Kapgate, and Jun Wen. 2013. Oldest fruits of the grape family (Vitaceae) from the Late Cretaceous Deccan Cherts of India. American Journal of Botany, 100: 1849–1859. https://doi.org/10.3732/ajb.1300008

156Sanping X, S.R. Manchester, K. Liu, Y. Wang, and B. Sun. 2013. Citrus linczangensis sp. n., a Leaf Fossil of Rutaceae from the Late Miocene of Yunnan, China. International Journal of Plant Sciences, 174: 1201–1207. https://doi.org/10.1086/671796

155Zhang J.-B., R.-Q. Li, X.-G. Xiang, S.R. Manchester, L. Lin, W. Wang, J. Wen, and Z.-D. Chen. 2013. Integrated fossil and molecular data reveal the biogeographic diversification of the Eastern Asian-Eastern North American disjunct hickory Genus Carya Nutt. Plos One, 8(7): e70449. https://doi.org/10.1371/journal.pone.0070449

154Wang Qi, S.R. Manchester, H.-J. Gregor, S. Shen, and Z-Y Li. 2013. Fruits of Koelreuteria(Sapindaceae) from the Cenozoic throughout the northern hemisphere: Their ecological, evolutionary, and biogeographic implications. American Journal of Botany, 100(2): 422–449. https://doi.org/10.3732/ajb.1200415

153Lielke, K, S. Manchester, and H. Meyer. 2012. Reconstructing the environment of the northern Rocky Mountains during the Eocene/Oligocene transition: constraints from the palaeobotany and geology of south-western Montana, USA. Acta Palaeobotanica, 52(2): 317–358.

152Manchester, S.R., I. Chen, and T.A. Lott. 2012. Seeds of Ampelocissus, Cissus, and Leea (Vitales) from the Paleogene of western Peru and their biogeographic significance. International Journal of Plant Sciences, 173 (8): 933–943. https://doi.org/10.1086/667233

151Mejia-Velasquez, P.J., D.L. Dilcher, C.A. Jaramillo, L.B. Fortini, and S.R. Manchester. 2012. Palynological composition of a Lower Cretaceous South American tropical sequence: Climatic implications and diversity comparisons with other latitudes. American Journal of Botany, 99(11): 1819–1827. https://doi.org/10.3732/ajb.1200135

150Collinson, M.E., S.R. Manchester, and V. Wilde. 2012. Fossil fruits and seeds of the Middle Eocene Messel biota, Germany. Abhandlungen der Senckenberg Gesellschaft für Naturforschung, 570:1-251.

149Collinson, ME, S.Y. Smith, S.R. Manchester, V. Wilde, L.E. Howard , B.E. Robson, S.F. Ford, F. Marone, J. L. Fife , and M. Stampanon. 2012. The value of X-ray approaches in the study of the Messel fruit and seed flora. Palaeobiodiversity and Palaeoenvironments, 92(4): 403-416. https://doi.org/10.1007/s12549-012-0091-7

148Stull, G.W., F. Herrera, S.R. Manchester, C. Jaramillo, and B.H. Tiffney. 2012. Fruits of an “Old World”tribe (Phytocreneae; Icacinaceae) from the Paleogene of North and South America. Systematic Botany, 37(3): 784–794. http://DOI: https://doi.org/10.1600/036364412X648724

147Guo, S.-X., Z. Kvaček, S.R. Manchester, and Z.-K. Zhou. 2012. Ditaxocladus (extinct Cupressaceae, Cupressoideae) from the Upper Cretaceous and Paleocene of the Northern Hemisphere. Palaeontographica, Abt. B: Palaeobotany –Palaeophytology, 288(5-6): 135–159. http://DOI: 10.1127/palb/288/2012/135

146Herrera, F., S.R. Manchester, and C. Jaramillo. 2012. Permineralized fruits from the late Eocene of Panama give clues of the composition of forests established early in the uplift of Central America. Review of Palaeobotany and Palynology, 175: 10–24. https://doi.org/10.1016/j.revpalbo.2012.02.007

145Nie, Z.-L., H. Sun, S.R. Manchester, Y. Meng, Q. Luke, and J. Wen. 2012. Evolution of the intercontinental disjunctions in six continents in the Ampelopsis clade of the grape family (Vitaceae). BMC Evolutionary Biology, 12: 17, 13 pp. https://doi.org/10.1186/1471-2148-12-17

144Manchester, S.R., F. Herrera, E. Fourtanier, J. Barron, and J.-N. Martinez. 2012. Oligocene age of the classic Belén fruit and seed assemblage of north coastal Peru based on diatom biostratigraphy. The Journal of Geology, 120(4): 467–476. https://doi.org/10.1086/665797

143Boonchai, N., and S.R. Manchester. 2012. Systematic affinities of early Eocene Petrified woods from southwestern Wyoming. International Journal of Plant Sciences, 173 (2): 209–227. https://doi.org/10.1086/663161

142Erdei B, S.R. Manchester, and Z. Kvaček. 2012. Dioonopsis Horiuchi et Kimura leaves from the Eocene of western North America: a cycad shared with the Paleogene of Japan. International Journal of Plant Sciences, 173(1): 81–95. https://doi.org/10.1086/662654

141 Kapgate, D., N. Awasthi, S.R. Manchester, and S.D. Chitaley. 2011. Inflorescences and flowers of Sahnipushpam Shukla from the Deccan Intertrappean beds of India. Acta Palaeobotanica, 51(2): 207–227.

140 Herrera, F., S.R. Manchester, S.B. Hoot , K.M. Wefferling , M.R. Carvalho, and C. Jaramillo. 2011. Phytogeographic implications of fossil endocarps of Menispermaceae from the Paleocene of Colombia. American Journal of Botany, 98(12): 1–14 + cover photo. https://doi.org/10.3732/ajb.1000461

139 Manchester, S.R. 2011. Fruits of Ticodendraceae (Fagales) from the Eocene of Europe and North America. International Journal of Plant Sciences, 172(9): 1179-1187. https://doi.org/10.1086/662135

138 Zetter, R., M.J. Farabee, K.B. Pigg, S.R. Manchester, M.L. DeVore, and M.D. Nowak. 2011. Palynoflora of the late Paleocene silicified shale at Almont, North Dakota, USA. Palynology, 35: 179–211. https://doi.org/10.1080/gspalynol.35.2.179

137 Stull, G.W., B.R. Moore, and S.R. Manchester. 2011. Fruits of Icacinaceae from the Eocene of Southeastern North America and their biogeographic implications. International Journal of Plant Sciences, 172: 935–947. https://doi.org/10.1086/660877

136 Iju Chen, and S.R. Manchester. 2011. Seed morphology of Vitaceae. International Journal of Plant Sciences, 172 (1): 1–35. https://doi.org/10.1086/657283

135 D.M. Jarzen; S.L. Corbett, and S.R. Manchester. 2010. Palynology and paleoecology of the Middle Miocene Alum Bluff flora, Liberty County, Florida, USA. Palynology, 34: 261–286.*https://doi.org/10.1080/01916122.2010.510824

134 Wang Qi, S.R. Manchester, and D.L. Dilcher. 2010. Fruits and foliage of Pueraria (Leguminosae,Papilionoideae) from the Neogene of Eurasia and their biogeographic implications. American Journal of Botany, 97: 1982–1998. https://doi.org/10.3732/ajb.1000167

133 Herrera, F., S.R. Manchester, C. Jaramillo, B. MacFadden, and S.A. da Silva-Caminha. 2010. Phytogeographic History and Phylogeny of the Humiriaceae. International Journal of Plant Sciences 171(4): 392–408. https://doi.org/10.1086/651229

132 Beilstein, M.A., N. S.Nagalingum, M.D. Clements, S.R. Manchester, and S. Mathews. 2010. Dated molecular phylogenies indicate a Miocene origin for Arabidopsis thaliana. Proceedings of the National Academy of Sciences, 107 (43): 18724–18728. https://doi.org/10.1073/pnas.0909766107

131 Manchester, S.R., X.-P. Xiang, and Q.-Y. (J.) Xiang. 2010. Fruits of Cornelian Cherries (Cornaceae: Cornus Subg. Cornus) in the Paleocene and Eocene of the Northern Hemisphere. International Journal of Plant Sciences, 171(8): 882–891. https://doi.org/10.1086/655771

130 Manchester, S.R., and Z. Kvaček. 2010. Inflorescences and compound leaves of the extinct Platanusneptuni complex in the Oligocene of Oregon, USA. Acta Palaeobotanica, 50: 5–15.

129 Manchester, S.R., T.M. Lehman, and E.A. Wheeler. 2010. Fossil palms (Arecaceae, Coryphoideae) associated with juvenile herbivorous dinosaurs in the upper Cretaceous Aguja Formation, Big Bend National Park, Texas. International Journal of Plant Sciences, 171(6): 679–689. https://doi.org/10.1086/653688

128 Nie, Ze-Long, S., C. Hang, M.Y. Zhi-Duan, S.R. Manchester, and J. Wen. 2010. Molecular phylogeny and biogeographic diversification of Parthenocissus (Vitaceae) disjunct between Asia and North America. American Journal of Botany, 97(8): 1342–1353. https://doi.org/10.3732/ajb.1000085

127 Herrera, F., S.R. Manchester, C. Jaramillo, B. MacFadden, and S.A. da Silva-Caminha. 2010. Phytogeographic History and Phylogeny of the Humiriaceae. International Journal of Plant Sciences, 171(4):392–408.* https://doi.org/10.1086/651229

126 Manchester, S.R., and E. O’Leary. 2010. Phylogenetic distribution and identification of fin-winged Fruits. Botanical Review, 76: 1–82.* https://doi.org/10.1007/s12229-010-9041-0

125 Correa, E, C. Jaramillo, S.R. Manchester, and M. Guteierrez. 2010. A fruit and leaves of rhamnaceous affinities from the Late Cretaceous (Maastrichtian) of Colombia. American Journal of Botany, 97: 71–79. https://doi.org/10.3732/ajb.0900093

124 Collinson, M.E., S.R. Manchester, V. Wilde, and P. Hayes. 2010. Fruit and seed floras from exceptionally preserved biotas in the European Paleogene. Bulletin of Geosciences, 85(1): 155–162

123 McMurran, D.M., and S.R. Manchester. 2010. Lagokarpos lacustris, A new winged fruit from the Paleogene of western North America. International Journal of Plant Sciences, 171(2): 227–234. https://doi.org/10.1086/648994

122 Wang Qing, S.R. Manchester, L. Chensen, and G. Baoyin. 2010. Fruits and leaves of Ulmus from the Paleogene of Fushun, northeastern China. International Journal of Plant Sciences, 171(2): 221–226. https://doi.org/10.1086/648991

121 Manchester, S.R., and M. Hottenrott. 2009. Large-fruited Salicaceae s.l. from the Miocene tuff of the Eichelskopf, northern Hessen, Germany. Feddes Repertorium, 120(7–8): 373–378. https://doi.org/10.1002/fedr.200911116

120 Manchester, S.R. Q.-Y. (J.) Xiang, T.M. Kodrul, and M.A. Akhmetiev. 2009. Leaves of Cornus (Cornaceae) from the Paleocene of North America and Asia confirmed by trichome characters. International Journal of Plant Sciences, 170(1): 132–142.* https://doi.org/10.1086/593040

119 Manchester, S.R, .Z.-D. Chen, A.-M. Lu, and K. Uemura. 2009. Eastern Asian endemic seed plant genera and their paleogeographic history throughout the Northern Hemisphere. Journal of Systematics and Evolution, 47(1): 1–42.* https://doi.org/10.1111/j.1759-6831.2009.00001.x

118 Wang, H., M.J. Moore, P.S. Soltis, C.D. Bell, S.F. Brockington, R. Alexandre, C.C. Davis, M. Latvis, S.R. Manchester, and D.E. Soltis. 2009. Rosid radiation and the rapid rise of angiosperm-dominated forests. Proceedings of the National Academy of Science. https://doi.org/10.1073/pnas.081337610

117 Manchester, S.R. 2009. Taxonomic databases and their utility for Paleobotany. International Organization of Paleobotany Newsletter, 88: 14.

116 Doyle, J.A. ,S.R. Manchester, and H. Sauquet. 2008. A seed related to Myristicaceae in the Early Eocene of southern England. Systematic Botany, 33(4): 636–646.  https://doi.org/10.1600/036364408786500217

115 Burge, D.O., and S.R. Manchester. 2008. Fruit morphology, fossil history, and biogeography of Paliurus (Rhamnaceae). International Journal of Plant Sciences, 169: 1066–1085.* https://doi.org/10.1086/590453

114 Pigg, K.B., S.R. Manchester, and M.L. DeVore. 2008. Fruits of Icacinaceae (Tribe Iodeae) from the Late Paleocene of western North America. American Journal of Botany, 95: 824–833.* https://doi.org/10.3732/ajb.2007340

113 Leopold, E.B., S.R. Manchester, and H.W. Meyer. 2008. Phytogeography of the late Eocene Florissant flora reconsidered. Pp. 53–70 in. H.W. Meyer, and D.M. Smith, eds. Paleontology of the upper Eocene Florissant Formation, Colorado. Geological Society of America Special Paper 435.

112 Wheeler, E.A, and S.R. Manchester. 2007. Review of the wood anatomy of extant Ulmaceae as context for new reports of late Eocene Ulmus woods. Bulletin of Geosciences Czech. Geological Survey, 82(4): 329–342.

111 Manchester, S.R., V. Wilde, and M.E. Collinson. 2007. Fossil cashew nuts from the Eocene of Europe: Biogeographic links between Africa and South America. International Journal of Plant Sciences, 168(8): 1199–1206.* https://doi.org/10.1086/520728

110 Chen, I., and S.R. Manchester. 2007. Seed morphology of modern and fossil Ampelocissus (Vitaceae) and implications for phytogeography. American Journal of Botany, 94: 1534-1553. https://doi.org/10.3732/ajb.94.9.1534

109 Manchester, S.R., and W.C. McIntosh. 2007. Late Eocene silicified fruits and seeds from the John Day Formation near Post, Oregon. PaleoBios, 27(1): 7–17.

108 Manchester, S.R., and E. Zastawniak 2007. Fruit with perianth remains of Chaneya Wang &Manchester (Extinct Rutaceae) in the Upper Miocene of Sos’nica, Poland. Acta Palaeobotanica, 47: 253–259.

107 Manchester, S.R. ,Q.-Y. (J) Xiang, and Q.-P. Xiang. 2007. Curtisia (Cornales) from the Eocene of Europe and its phytogeographical significance. Botanical Journal of the Linnean Society, 155: 127–134.* https://doi.org/10.1111/j.1095-8339.2007.00680.x

106 Manos, P.S., Soltis, P.S., Soltis, D.E, Manchester, S.R., Oh, S.-H, Bell, C.D., Dilcher, D.L., and Stone, D.E. 2007. Phylogeny of extant and fossil Juglandaceae inferred from the integration of molecular and morphological data sets. Systematic Biology, 56 (3): 412-430. https://doi.org/10.1080/10635150701408523

105 Manchester, S.R., and LJ. Hickey. 2007. Reproductive and vegetative organs of Browniea gen. n. (Nyssaceae) from the Paleocene of North America. International Journal of Plant Sciences, 167(4): 897–908.* https://doi.org/10.1086/509661

104 Wheeler, E.A., S.R. Manchester, and M. Wiemann. 2006. Eocene Woods of Central Oregon. Paleobios, 26(3): 1–6.

103 Manchester, S.R., and I. Chen. 2006. Tetracentron fruits from the Miocene of western North America. International Journal of Plant Sciences, 167(3): 601–605. https://doi.org/10.1086/503206

102 Manchester, S.R., W.S. Judd, and B. Handley. 2006. Foliage and fruits of early poplars (Salicaceae: Populus) from the Eocene of Utah, Colorado, and Wyoming. International Journal of Plant Sciences, 167(4): 897–908.* https://doi.org/10.1086/503918

101 Xiang, Q.-Y. (J.), D.T. Thomas, W. Zhang, S.R. Manchester, and Z. Murell. 2006. Species level phylogeny of Cornus (Cornaceae) based on molecular and morphological evidence–implications for taxonomy and Tertiary intercontinental migration. Taxon, 55(1): 9–30. https://doi.org/10.2307/25065525

100 Manchester, S.R., Z. Chen, and Z. Zhou. 2006. Wood anatomy of Craigia (Malvales) from southeastern Yunnan, China. International Association of wood Anatomists Journal, 27: 129–136.* https://doi.org/10.1163/22941932-90000142

99 Kvaček, Z., S.R. Manchester, and M.A. Akhmetiev. 2005. Review of the fossil history of Craigia(Malvaceae s.l.) in the northern hemisphere based on fruits and co-occurring foliage. Pp. 114–140 In. M.A. Akhmetiev and A.B. Herman, ed., Modern problems of Palaeofloristics,Palaeophytogeography, and Phytostratigraphy. GEOS, Moscow.

98 Dillhoff, R. M., E.B. Leopold, and S.R. Manchester. 2005. The McAbee flora of British Columbia and its relation to the Early-Middle Eocene Okanagan Highlands flora of the Pacific Northwest. Canadian Journal of Earth Sciences, 42: 151–166.

97 Manchester, S. R., Z.-D. Chen, B-Y. Geng, and J-R. Tao. 2005. Middle Eocene flora of Huadian, JilinProvince, Northeastern China. Acta Paleobotanica, 45(1): 3–26.*

96 Xiang, Q-Y(J), S.R. Manchester, D.T. Thomas, W. Zhang, and C. Fan. 2005 Phylogeny, biogeography, and molecular dating of Cornelian Cherries (Cornus, Cornaceae): Tracking Tertiary plant migration Evolution, 59(8): 1685–1700.

95 Manchester S.R., K.B. Pigg, and P.R. Crane. 2004. Palaeocarpinus dakotensis sp. n. (Betulaceae:Coryloideae) and associated staminate catkins, pollen and leaves from the Paleocene of North Dakota. International Journal of Plant Sciences, 165: 1135–1148.*

94 Chen, Iju, S.R. Manchester, and Z.-D. Chen. 2004. Anatomically preserved seeds of Nuphar(Nymphaeaceae) from the Early Eocene of Wutu, Shandong Province, China. American Journal of Botany, 91(8): 1265–1272.

93 Corbett, S.R., and S.R. Manchester. 2004. Phytogeography and fossil history of Ailanthus(Simaroubaceae). International Journal of Plant Sciences, 165: 671–690.

92 Manchester, S.R., and R.M. Dillhoff. 2004. Fagus (Fagaceae) fruits, foliage, and pollen from the Middle Eocene of Pacific Northwestern North America. Canadian Journal of Botany 82: 1509–1517.

91 Manchester, S. 2004. Photoshop tips for palynology. American Association of StratigraphicPalynologists Newsletter, March 2004. 37(1): 16–18.

90 Kvaček, Z., and S.R. Manchester. 2004. Vegetative and reproductive structure of the extinct Platanusneptuni from the Tertiary of Europe and relationships within the Platanaceae. Plant Systematics & Evolution, 244: 1–29.

89 Pigg, K.B., S.R. Manchester, and W.C. Wehr. 2003. Corylus, Carpinus, and Palaeocarpinus (Betulaceae) from the middle Eocene Klonkike Mountain and Allenby Formations of Northwestern North America. International Journal of Plant Sciences, 164: 807–822.

88 Boucher, L.D., S.R. Manchester, and W.S. Judd. 2003. An extinct genus of Salicaceae based on twigs with attached flowers, fruits, and foliage from the Eocene Green River Formation of Utah andColorado, USA. American Journal of Botany, 90: 1389-1399 + cover photo *

87 Takahashi, M., P.R. Crane, and S.R. Manchester. 2003. Huronoia fusiformis gen. et sp. nov.; acornalean fruit from the Kamikitaba locality (Upper Cretaceous, Lower Coniacean) in northeasternJapan. Journal of Plant Research, 115: 463–473.*

86 Wilde, V., and S.R. Manchester. 2003. Cedrelospermum fruits (Ulmaceae) and related leaves from the Middle Eocene of Messel (Hesse, Germany). Cour. Forsch.-Inst. Senckenberg, 241: 147–153.*

85 Akhmetiev, M.A., T.V. Kezina, T.M. Kodrul, and S.R. Manchester. 2002. Stratigraphy and flora of the Cretaceous-Paleogene boundary layers in the southeast part of the Zeya-Bureya sedimentary basin. Pp. 275–315, in M.A. Akhmetiev, M.P. Doludenko, A.B. Herman, and I.A. Ignatiev, eds. Special volume dedicated to the memory of the Corresponding member of the USSR Academy of Sciences, Professor Vsevolod Andreevich Vakrameev (to the 90th anniversary of his birth). Geological Institute Russian Academy of Sciences, Moscow. 336 pp. In Russian.

84 Manchester, S.R. 2002. Morphology and phytogeographic history of PorosiaHickey in the Cretaceous and Paleocene of Asia and North America, and its distinction from Limnobiophyllum Krassilov. Pp. 180–181, in M.A. Akhmetiev, M.P. Doludenko, A.B. Herman, and I.A. Ignatiev, eds. Special volume, dedicated to the memory of the Corresponding member of the USSR Academy of Sciences, Professor Vsevolod Andreevich Vakrameev (to the 90th anniversary of his birth). Geological Institute Russian Academy of Sciences, Moscow. 336 pp.

83 Wheeler, E.A., and S.R. Manchester. 2002. Woods of the Eocene Nut Beds flora, Clarno Formation, Oregon, USA. International Association of Wood Anatomists Journal, Supplement 3. 188 pp.*

82 Manchester, S.R., M.A. Akhmetiev, and T. Kodrul. 2002. Leaves and fruits of Celtis aspera (Newberry) comb. nov. (Celtidaceae) from the Paleocene of North America and eastern Asia. International Journal of Plant Sciences, 163: 725–736.*

81 Manchester, S.R. 2002. Automated Multilingual Text Translation. International Organization ofPalaeobotany Newsletter, 71: 3–5.*

80 Kvaček, Z., S.R. Manchester , R. Zetter , and M. Pingen. 2002. Fruits and seeds of Craigia bronnii (Malvaceae -Tilioideae) and associated flower buds from the late Miocene Inden Formation, Lower Rhine Basin, Germany. Review of Palaeobotany and Palynology, 119: 311–324.

79 Pingen, M., Z. Kvaček, and S.R. Manchester. 2001. Früchte und Samen von Craigia bronnii aus demObermiozän von Hambach (Niederrheinische Bucht – Deutschland) Vorläufige Mitteilung. Documenta Naturae, 138: 1–7, 2 pls. München. (issued 2002).

78 Manchester, S.R. 2002. Leaves and fruits of Davidia (Cornales) from the Paleocene of North America. Systematic Botany, 27(2): 368–382.*

77 Manchester, S.R. 2001. Update on the megafossil flora of Florissant, Colorado, USA. In Evanoff, E., Gregory-Wodzicki K.M., Johnson K.R., eds. Fossil flora and stratigraphy of the FlorissantFormation,Colorado. Proceedings of the Denver Museum of Nature and Science, Series 4(1): 137–161.*

76 Manchester, S.R., and B.H. Tiffney. 2001. Integration of paleobotanical and neobotanical data in the assessment of phytogeographic history of holarctic angiosperm clades. International Journal of Plant Sciences, 162 (6, supplement): S19–S27.*

75 Tiffney B.H., and S.R. Manchester. 2001. The use of geological and paleontological evidence in evaluating plant phylogeographic hypotheses in the Northern Hemisphere Tertiary. International Journal of Plant Sciences, 162 (6, supplement): S3-S17.*

74 McClain, A.M., and S.R. Manchester. 2001. Dipteronia (Sapindaceae) from the Tertiary of North America and implications for the phytogeographic history of the Aceroideae. American Journal of Botany, 88(7): 1316–1325.*

73 Manchester, S.R. 2001. Leaves and fruits of Aesculus (Sapindales) from the Paleocene of North America. International Journal of Plant Science, 162(4): 985-998.*

72 Kvaček, Z., L. Hably, and S.R. Manchester. 2001. Sloanea (Elaeocarpaceae) fruits and foliage from the Early Oligocene of Hungary and Slovenia. Palaeontographica Abt. B, 259: 113–124.

71 Kvaček, Z., S.R. Manchester, and S.-X. Guo. 2001. Trifoliolate leaves of Platanus bella (Heer) comb. n. from the Paleocene of North America, Greenland, and Asia and their relationships among extinct and extant Platanaceae. International Journal of Plant Sciences, 162: 441–458.*

70 Hably, L., Z. Kvaček, and S.R. Manchester. 2000. Shared taxa of land plants in the Oligocene of Europe and North America in context of Holarctic phytogeography. Acta Universitatis Carolinae-Geologica 44: 59–74.

69 Manchester, S.R., and E.J. Hermsen. 2000. Flowers, fruits, seeds, and pollen of Landeenia gen. nov., an extinct sapindalean genus from the Eocene of Wyoming. American Journal of Botany, 87: 1909–1914.*

68 Akhmetiev, M.A., and S.R. Manchester. 2000. A new species of Palaeocarpinus (Betulaceae) from thePaleogene of Eastern Sikhote-Alin. Paleontological Journal, 34: 467–474.*

67 Hably, L., and S.R. Manchester. 2000. Fruits of Tetrapterys (Malpighiaceae) from the Oligocene ofHungary and Slovenia. Review of Palaeobotany and Palynology, 111: 93–101.*

66 Manchester, S.R. 2000. Late Eocene fossil plants of the John Day Formation, Wheeler County, Oregon. Oregon Geology, 62: 51–63.*

65 Wang, Yufei, and S.R. Manchester. 2000. Chaneya, A new genus of winged fruit from the Tertiary of North America and eastern Asia. International Journal of Plant Sciences, 161: 167–178.*

64 Kvaček, Z., S.R. Manchester, and H.E. Schorn. 2000. Cones, seeds, and foliage of Tetraclinis salicornioides (Cupressaceae) from the Oligocene and Miocene of western North America: a geographic extension of the European Tertiary species. International Journal of Plant Sciences, 161: 331–344.*

63 Xiang, Qiu-Yun, D.E. Soltis, P.S. Soltis, S.R. Manchester, and D.J. Crawford. 2000. Timing the Eastern Asian – Eastern North American Floristic Disjunction: Molecular clock corroborates paleontological estimates. Molecular Phylogenetics and Evolution, 15: 462–472.

62 Geng Baoyin, S.R. Manchester, and L. Anming. 1999. The first discovery of Eucommia fruit fossil in China. Chinese Science Bulletin, 44: 1506–1509.*

61 Chen, Zhi-duan, S.R. Manchester, and H.-Y. Sun. 1999. Phylogeny and evolution of the Betulaceae as inferred from DNA sequences, morphology and paleobotany. American Journal of Botany, 86: 1168–1181.*

60 Manchester, S.R. 1999. Biogeographical relationships of North American Tertiary floras. Annals of the Missouri Botanical Garden, 86: 472–522.*

59 Kvaček, Z., and S.R. Manchester. 1999. Eostangeria Barthel (extinct Cycadales) from the Paleogene of western North America and Europe. International Journal of Plant Science 160: 621–629.*

58 Manchester, S.R., P.R. Crane, and L. Golovneva. 1999. An extinct genus with affinities to extantDavidia and Camptotheca (Cornales) from the Paleocene of North America and Eastern Asia. International Journal of Plant Science, 160: 188–207.*

57 Wiemann, M.C., S.R. Manchester, and E.A. Wheeler. 1999. Paleotemperature estimation from dicotyledonous wood anatomical characters. Palaios, 14: 459–474.

56 Lott, T.A., S.R. Manchester, and D.L. Dilcher. 1998. A unique and complete polemoniaceous plant from the middle Eocene of Utah, USA. Review of Palaeobotany and Palynology, 104: 39–49.

55 Manchester, S.R., and Z.-D. Chen. 1998. A new genus of Coryloideae (Betulaceae) from the Paleocene of North America. International Journal of Plant Science, 159: 522–532.*

54 Manchester, S.R., D.L. Dilcher, and S.L. Wing. 1998. Attached leaves and fruits of myrtaceous affinity from the middle Eocene of Colorado, USA. Review of Palaeobotany and Palynology, 102: 153–163.

53 Smith, G.A., S.R. Manchester, M. Ashwill, W.C. McIntosh, and R.M. Conrey. 1998. Late Eocene-early Oligocene tectonism, volcanism, and floristic change near Gray Butte, central Oregon. Geological Society of America Bulletin, 100: 759–778.

52 Wiemann, M.C., S.R. Manchester, D.L. Dilcher, L.F. Hinojosa, and E.A. Wheeler. 1998. Estimation of temperature and precipitation from morphological characters of dicotyledonous leaves American Journal of Botany, 85: 1796–1802.

51 Wiemann, M.C., E.A. Wheeler, S.R. Manchester, and K.M. Portier. 1998. Dicotyledonous wood anatomical characters as predictors of climate. Palaeogeography, Palaeoclimatology, Palaeoecology, 139: 83–100.

50 Meyer, H.W., and S.R. Manchester. 1997. The Oligocene Bridge Creek flora of the John Day Formation,Oregon. University of California Publications in Geological Science, 141: 1–195, 75 pl.

49 Manchester, S.R., and L. Hably. 1997. Revision of Abelia fruits from the Paleogene of Hungary, CzechRepublic, and England. Review of Palaeobotany and Palynology, 96: 321–240.*

48 McIntosh, W.C., S.R. Manchester., and H.W. Meyer. 1997. Age of the plant-bearing tuffs of the John Day Formation at Fossil, Oregon, based upon 40Ar/39Ar single-crystal dating. Oregon Geology, 59: 3–5, 20, + cover photo.

47 Judd W., and S.R. Manchester. 1997. Circumscription of Malvaceae (Malvales) as determined by a preliminary cladistic analysis of morphological, anatomical, palynological and chemical characters.Brittonia, 49: 384–405.

46 Manchester, S.R., and D.L. Dilcher. 1997. Reproductive and vegetative morphology of Polyptera(Juglandaceae) from the Paleocene of Wyoming and Montana. American Journal of Botany, 84: 649–663 + cover photo.*

45 Wehr, W.C., and S.R .Manchester. 1996. Paleobotanical significance of flowers, fruits, and seeds from the Eocene of Republic, Washington. Washington Geology, 24: 25–27.*

44 Manchester, S.R. 1996. Petrified woods in Florida. Papers in Florida Paleontology, 8: 1–8.

43 Manchester, S.R., and Chen Zhiduan. 1996. Palaeocarpinus aspinosa sp. nov. (Betulaceae) from the Paleocene of Wyoming, USA. International Journal of Plant Sciences, 157: 644–655.*

42 Manchester, S.R., and S.-X. Guo. 1996. Palaeocarpinus (extinct Betulaceae) from northwestern China: New evidence for Paleocene floristic continuity between Asia, North America and Europe. International Journal of Plant Sciences, 157: 240–246.*

41 Manchester, S.R., and M. Donoghue. 1995. Winged fruits of Linnaeeae (Caprifoliaceae) in the Tertiary of western North America: Diplodipelta gen. nov. International Journal of Plant Sciences, 156: 709–722.*

40 Manchester, S.R. 1995. Yes, we had bananas. Oregon Geology, 57: 41–43.

39 Manchester, S.R., M.E. Collinson, and K. Goth. 1994. Fruits of the Juglandaceae from the Eocene of Messel, Germany and implications for early Tertiary phytogeographic exchange between Europe and western North America. International Journal of Plant Sciences, 155: 388–394, + cover photo.*

38 Manchester, S.R. 1994. Inflorescence bracts of fossil and extant Tilia in North America, Europe and Asia: Patterns of morphologic divergence and biogeographic history. American Journal of Botany, 81: 1176–1185.*

37 Manchester, S.R. 1994. Fruits and seeds of the Middle Eocene Nut Beds flora, Clarno Formation,Oregon. Palaeontographica Americana, 58: 1–205.

36 Carlquist, S., Morrell, P., and S.R. Manchester. 1993. Wood anatomy of Sabiaceae (s.l.): Ecological and systematic implications. Aliso, 13: 521–549.*

35 Manchester, S.R., and W.J. Kress. 1993. Fossil bananas (Musaceae): Ensete oregonense sp. nov. from the Eocene of western North America and its phytogeographic significance. American Journal of Botany, 80: 1264–1272.*

34 Manchester, S.R., and E.A. Wheeler. 1993. Extinct juglandaceous wood from the Eocene of Oregon and its implications for xylem evolution in the Juglandaceae. International Association of Wood Anatomists Journal, 14: 103–111.*

33 Call, V.B., S.R. Manchester, and D.L. Dilcher. 1993. Wetherellia fruits and associated plant remains from the Paleocene/Eocene Tuscahoma-Hatchetigbee interval, Meridian, Mississippi. Mississippi Geology, 14: 10–18.

32 Meyer, H.W., and S.R. Manchester. 1992. Presentation of the Harrell L. Strimple award of the Paleontological Society to Melvin S. Ashwill. Journal of Paleontology, 66: 714–716.

31 Manchester, S.R. 1992. Flowers, fruits and pollen of Florissantia, an extinct malvalean genus from the Eocene and Oligocene of western North America. American Journal of Botany, 79: 996-1008 + cover photo.*

30 Manchester, S.R., P.R. Crane, and D.L. Dilcher. 1991. Nordenskioldia and Trochodendron (Trochodendraceae) from the Miocene of northwestern North America. Botanical Gazette, 152: 357–368.*

29 Kvaček, Z., C. Bůžek, and S.R. Manchester. 1991. Fossil fruits of Pteleaecarpum Weyland–Tiliaceousnot Sapindaceous. Botanical Gazette, 152: 522–523.*

28 Crane, P.R., S.R. Manchester, and D.L. Dilcher. 1991. Reproductive and vegetative structure of Nordenskioldia (Trochodendraceae), a vesselless dicotyledon from the Early Tertiary of the Northern Hemisphere. American Journal of Botany 78: 1311Â51334.*

27 Manchester, S.R. 1991. Cruciptera, a new juglandaceous winged fruit from the Eocene and Oligocene of western North America. Systematic Botany, 16: 715–725.*

26 Manchester, S.R. 1990. Eocene to Oligocene floristic changes recorded in the Clarno and John Day Formations, Oregon, USA, in E. Knobloch, and Kvaček, Z., [eds.], Symposium Proceedings, paleofloristic and paleoclimatic changes in the Cretaceous and Tertiary, pp. 183–187, Geological Survey Press, Prague, Czechoslovakia.

25 Crane, P.R., S.R. Manchester, and D.L. Dilcher. 1990. A preliminary survey of fossil leaves and well-preserved reproductive structures from the Sentinel Butte Formation (Paleocene) near Almont,North Dakota. Fieldiana Geology, 1418: 1–63.*

24 Manchester, S.R. 1989c. Systematics and fossil history of the Ulmaceae, pp. 221–252 in Crane, P.R. and Blackmore, S. eds. Evolution, Systematics, and fossil history of the Hamamelidae, Volume 2: ‘Higher’ Hamamelidae, Systematics Association Special Volume no. 40B, Clarendon Press, Oxford.*

23 Manchester, S.R. 1989b. Attached reproductive and vegetative remains of the extinct American-European genus Cedrelospermum (Ulmaceae) from the early Tertiary of Utah and Colorado, USA. American Journal of Botany, 76: 256–276.*

22 Manchester, S.R. 1989a. Early history of the Juglandaceae. Plant Systematics and Evolution 162: 231–250.

21 Bůžek,C, Z. Kvaček, and S.R. Manchester. 1989. Sapindaceous affinities of the Pteleaecarpum fruits from the Tertiary of Eurasia and North America. Botanical Gazette, 150: 477–489.

20 Dilcher, D.L., and S.R. Manchester. 1988. Investigations of angiosperms from the Eocene of North America: a fruit belonging to the Euphorbiaceae. Tertiary Research, 9: 45–58.

19 Crane, P.R., S.R. Manchester, and D.L. Dilcher. 1988. Morphology and Phylogenetic significance of the angiosperm Platanites hebridicus from the Palaeocene of Scotland. Palaeontology, 31: 503–517.*

18 Jones, J.H., S.R. Manchester, and D.L. Dilcher. 1988. Dryophyllum Debey ex Saporta, juglandaceousnot fagaceous. Review of Palaeobotany and Palynology, 56: 205–211.

17 Manchester, S.R. 1988. Fruits and seeds of Tapiscia (Staphyleaceae) from the middle Eocene of Oregon, USA. Tertiary Research, 9: 59–66.*

16 Manchester, S.R., and M.S. Zavada. 1987. Lygodium foliage with intact sorophores from the Eocene of Wyoming. Botanical Gazette, 148: 392–399.*

15 Manchester, S.R., and P.R. Crane. 1987. A new genus of Betulaceae from the Oligocene of westernNorth America. Botanical Gazette, 148: 263–273.*

14 Manchester, S.R. 1987b. The fossil history of the Juglandaceae. Missouri Botanical Garden Monograph, 21: 1–137.*

13 Manchester, S.R. 1987a. Extinct ulmaceous fruits from the Tertiary of Europe and western North America. Review of Palaeobotany and Palynology, 52: 119–112. *

12 Manchester, S.R. 1986. Vegetative and reproductive morphology of an extinct plane tree (Platanaceae) from the Eocene of western North America. Botanical Gazette, 147: 200–226.*

11 Dilcher, D.L., and Manchester, S.R. 1986. Investigations of angiosperms from the Eocene of North America: leaves of the Engelhardieae (Juglandaceae). Botanical Gazette, 147: 189–199.*

10 Manchester, S.R., D.L. Dilcher, and W.D. Tidwell. 1986. Interconnected reproductive and vegetative remains of Populus (Salicaceae) from the Middle Eocene Green River Formation, northeastern Utah. American Journal of Botany, 73: 156–160.

9 Manchester, S.R., and P.R. Crane. 1983. Attached leaves, inflorescences, and fruits of Fagopsis, an extinct genus of fagaceous affinity from the Oligocene Florissant Flora of Colorado, USA. American Journal of Botany, 70: 1147–1164.

8 Manchester, S.R. 1983. Fossil wood of the Engelhardieae (Juglandaceae) from the Eocene of North America: Engelhardioxylon gen. nov. Botanical Gazette, 144: 157–163.

7 Crane, P.R., and S.R. Manchester. 1982. An extinct juglandaceous fruit from the Upper Paleocene of Southern England. Botanical Journal of the Linnean Society, 85: 89–101.

6 Manchester, S.R., and D.L. Dilcher. 1982. Pterocaryoid fruits (Juglandaceae) in the Paleogene of North America and their evolutionary and biogeographic significance. American Journal of Botany, 69: 275–286.

5 Manchester, S.R. 1981. Fossil plants of the Eocene Clarno Nut Beds. Oregon Geology, 43: 75–81.

4 Manchester, S.R. 1980. Chattawaya (Sterculiaceae): a new genus of wood from the Eocene of Oregon and its implications for xylem evolution of the extant genus Pterospermum. American Journal of Botany, 67: 59–67.

3 Manchester, S.R. 1979. Triplochitioxylon (Sterculiaceae): a new genus of wood from the Eocene of Oregon and its bearing on the xylem evolution of the extant genus Triplochiton. American Journal of Botany, 66: 699–708.

2 Manchester, S.R., and R.B. Miller. 1978. Tile cells and their occurrence in malvalean fossil woods. IAWA Bulletin, 1978/2-3: 23–28.

1 Manchester, S.R. 1977. Wood of Tapirira (Anacardiaceae) from the Paleogene Clarno Formation ofOregon. Review of Palaeobotany and Palynology, 23: 119–127.

Symposia, Conferences and Field Excursions Organized

“Oligocene plant assemblages–Change from the old to modern world vegetation.”  Co-organized with Johanna Eder and Zlatko Kvacek for the International Organisation of Palaeobotany Conference, Salvador, Brasil, Oct. 2016.

“Tracing the history of extant angiosperm clades with paleobotanical data” co-organized with K. Pigg for the International Organisation of Palaeobotany Conference, Tokyo, 2012.

“World-wide Early and Middle Eocene floras, the evolving picture,” co-organized with R.M. Dillhoff, for the 8th International Organisation of Palaeobotany Conference, Bonn, Germany, 2008.

“Advances in Paleobotany, recognizing the contributions of David L. Dilcher and Jack A. Wolfe on the occasion of their 70th year.” Paramount Plaza Hotel, Gainesville, FL March 12-15, 2006.

“Intracontinental floristic relationships through the Late Cretaceous and Tertiary”, co-organized with Zlatko Kvacek, held at the International Organisation of Palaeobotany Conference, Qinhuangdao, China, August 2000.

“Fossil Forests of Central Oregon” S.R. Manchester and G. J. Retallack, Botanical Society of America Field Trip 17. August 10-14, 2000.

“Eur-American floristic similarities through the Cenophytic”, co-organized with Z. Kvacek for the International Botanical Congress, St. Louis, 1999.

International Organization of Paleobotany Conference, Santa Barbara, California, co-organized with B.H. Tiffney. June 30-July 5, 1996.

 

National Science Foundation Grants

2014-2018. Earth Life Transitions: Stratigraphic refinement, systematic and biogeographic relationships of the late Cretaceous-Paleocene Deccan biota of India (EAR 1338285; $280,000).

2008-2012. Collaborative Research: Evolution via the grape vine: Phylogeny and biogeographic history of the Vitaceae (BSR 0743474; $275,000).

2004-2009. AToL: Collaborative Research: Resolving the trunk of the angiosperm tree and twelve of its thorniest branches (Co-PI with Soltis et al; EF 0431266; $830,350).

2000-2003. U.S.-China Cooperative Research: Origins and evolution of major characteristic elements and key taxa in east Asian flora (INT 0074295; $41,796).

2001-2004. Eocene floras of the Northern Hemisphere: Paleoclimate and implications for large scale floristic interchange (EAR 0174295; $75,000).

1997-2000. NSF research grant: U.S.-Czech paleobotanical research on Tertiary plant disjunctions of North America and Europe (INT 560260112; $19,558).

1996-1999. NSF curation grant: Curation of the Florida Museum of Natural History Paleobotanical Collection (DEB 9631371, Co-PI with David Dilcher; $200,000).

1995-997 NSF research grant: Paleofloral and stratigraphic analysis and Eocene-Oligocene climate change in a single continental section in north-central Oregon. (EAR 9506727; $24,558).

1995-1996. Support for the Fifth International Organization of Paleobotany Conference. (EAR-9418676; $10,000).

1994-1996. Fossil dicotyledonous woods as paleoclimatic indicators: test cases from the Tertiary of western North America (EAR-9322765; $120,427).

1993-1995. Paleocene spread of deciduous hardwood forest in North America and Asia: megafossil and palynological correlations (EAR 9220079; $100,000).