Publikationen

• 2024
• 2023
• 2022
• 2021
• 2020
• 2019
• 2018
• 2017

2024

• Stephenson, M.H., Bomfleur, B., Jardine, P.E., Kerp, H., Blomenkemper, P., Bäumer, R., Abu Hamad, A., und J.W., Schneider. 2024. „Palynological variability within the Permian (Changhsingian) Umm Irna Formation (Jordan): implications for biostratigraphy and fluid-flow character in alluvial formations.“ Palynology 48 (4) 2388134. doi: 10.1080/01916122.2024.2388134.

2023

• Turner, H.-A.; Humpage, M.; Kerp, H.; Hetherington, A.J.. 2023. „Leaves and sporangia developed in rare non-Fibonacci spirals in early leafy plants.“ Science 380: 1188–1192. doi: 10.1126/science.adg4014.
• Liu, F., Peng, H., Marshall, J.E.A., Lomax, B.H., Bomfleur, B., Kent, M.S., Fraser, W.T., und Jardine, P.E. 2023. „Dying in the Sun: direct evidence for elevated UV-B radiation at the end-Permian mass extinction.“ Science advances 9 (1) eabo6102. doi: 10.1126/sciadv.abo6102.
• Wei, C., Jardine, P.E., Gosling, W.D., und Hoorn, C. 2023. „Is Poaceae pollen size a useful proxy in palaeoecological studies? New insights from a Poaceae pollen morphological study in the Amazon.“ Review of Palaeobotany and Palynology 308 104790. doi: 10.1016/j.revpalbo.2022.104790.
• Woutersen, A., Jardine, P.E., Silvestro, D., Bogotá-Angel, R.G., Zhang, H.-X., Meijer, N., Bouchal, J., Barbolini, N., Dupont-Nivet, G., Koutsodendris, A., Antonelli, A., und Hoorn, C. 2023. „The evolutionary history of the Central Asian steppe-desert taxon Nitraria (Nitrariaceae) as revealed by integration of fossil pollen morphology and molecular data.“ Botanical Journal of the Linnean Society 202 (2): 195–214. doi: 10.1093/botlinnean/boac050.
• Tellería, M.Cristina, Barreda, Viviana D., Jardine, Phillip E., und Palazzesi, Luis. 2023. „The use of pollen morphology to disentangle the origin, early evolution, and diversification of the Asteraceae.“ International Journal of Plant Sciences 184 (5): 350–365. doi: 10.1086/725046.
• Schachat, S., Baresch, A., Bui, T.Falcon-Lang H.J., Chaney, D.S.: Nelson W.J., Elrick, S.D., Kerp, H., Lucas, S.G., und DiMichele, W.A. 2023. „Vegetational change during the Middle–Late Pennsylvanian transition in western Pangaea.“ In Ice Ages, Climate Dynamics and Biotic Events: the Lucas, S. G., DiMichele, W. A., Opluštil, S. and Wang, X.Late Pennsylvanian World., Bd. 535 aus Geological Society London, Special Publications, herausgegeben von S.G. Lucas, W.A. DiMichele, S. Opluštil und X. Wang. London: Geological Society of London. doi: 10.1144/SP535-2022-281.
• Jardine, P.E., Peng, H., Marshall, J.E.A., Lomax, B.H., Bomfleur, B., Kent, M.S., Fraser, W.T., und Liu, F. 2023. „Response to Comment on ‘Dying in the Sun: Direct evidence for elevated UV-B radiation at the end-Permian mass extinction’.“ Science advances 9 (34) eadj6309. doi: 10.1126/sciadv.adj6309.
• Jardine, P.E., Kent, M.S., Fraser, W.T., Knorr, K.-H., und Lomax, B.H. 2023. „Uncovering a phylogenetic signal in plant biopolymer chemistry: a comparison of sporopollenin isolation approaches for use in palynological research.“ Palaeontology 66 (6) e12683. doi: 10.1111/pala.12683.
• Korasidis, Vera, Wing, Scott, Harrington, Guy, Demchuk, Thomas, Gravendyck, Julia, Jardine, Phillip, und Willard, Debra. 2023. „Biostratigraphically significant palynofloras from the Paleocene–Eocene boundary of the USA.“ Palynology 47 (1) 2115159. doi: 10.1080/01916122.2022.2115159.

2022

• Seyfullah, Leyla, Roberts, Emily, Jardine, Phillip, Rikkinen, Jouko, und Schmidt, Alexander. 2022. „Uncovering the natural variability of araucariacean exudates from ex situ and in situ tree populations in New Caledonia using FTIR spectroscopy.“ PeerJ Analytical Chemistry 4 e17. doi: 10.7717/peerj-achem.17.
• Kerp, H.; Bödige, H.; Bomfleur, B.; Schneider, J.W.. 2022. „First records of the conifers Majonica and Ortiseia from the German Zechstein (upper Permian) of east Thuringia and west Saxony, Germany.“ Botany Letters 169 (4): 423–441. doi: 10.1080/23818107.2022.2122555.
• Kerp, H. ; Moisan, P. ; Bomfleur, B.. 2022. „A simple focusing device for macrophotography at higher magnifications.“ Review of Palaeobotany and Palynology 307 104768. doi: 10.1016/j.revpalbo.2022.104768.
• Steinthorsdottir, M., Jardine, P.E., Lomax, B.H., und Sallstedt, T. 2022. „Key traits of living fossil Ginkgo biloba are highly variable but not influenced by climate – Implications for palaeo-pCO2 reconstructions and climate sensitivity.“ Global and Planetary Change 211: 103786.. doi: 10.1016/j.gloplacha.2022.103786.
• Jardine, P.E., Palazzesi, L., Tellería, M.C., und and, Barreda V.D. 2022. „Why does pollen morphology vary? Evolutionary dynamics and morphospace occupation in the largest angiosperm order (Asterales).“ New Phytologist 234 (3): 1075–1087. doi: 10.1111/nph.18024.
• DiMichele, W.A., Kerp, H., Lucas, S.G., und Chaney, D.S. 2022. „A taxonomic revision of the late Paleozoic lyginopterid Sphenopteridium germanicum and description of its globose-stem growth habit.“ Review of Palaeobotany and Palynology 298: 104591..
• Kerp, H., Blomenkemper, P., Abu, Hamad A., und Bomfleur, B. 2022. „Saportaea Fontaine et White 1880 - An enigmatic, long-ranging, widely distributed but rare type of late Paleozoic and early Mesozoic foliage.“ Review of Palaeobotany and Palynology 296: 104542.. doi: 10.1016/j.revpalbo.2021.104542.
• Zavialova, N., Blomenkemper, P., Kerp, H., Bomfleur, B., und Nosova, N. 2022. „In search of the correspondence between in situ and dispersed pollen.“ Review of Palaeobotany and Palynology 303 104682. doi: 10.1016/j.revpalbo.2022.104682.
• Blomenkemper, P., Kerp, H., Abu Hamad, A., und Bomfleur, B. 2022. „Rhabdotaenia – a typical Gondwanan leaf from the upper Permian of Jordan.“ Alcheringa 46 (1): 85–93. doi: 10.1080/03115518.2022.2028899.

2021

• Hetherington, A.J., Bridson, S.L., Jones, A.L., H., Hass., Kerp, H., Dolan, und L.. 2021. „An evidence-based 3D reconstruction of Asteroxylon mackiei, the most complex plant preserved from the Rhynie chert.“ eLife 10: 1–18. doi: 10.7554/eLife.69447.
• Lucas, S.G., DiMichele, W.A, Krainer, K., Barrick, J.E., Vachard, D., Donovan, M.P., Looy, C., Kerp, H., und Chaney, D.S. 2021. Smithsonian Contributions to Paleobiology, Bd. 104, The Pennsylvanian System in the Sacramento Mountains, New Mexico, USA: Stratigraphy, Petrography, Depositional Systems, Paleontology, Biostratigraphy, and Geologic History. Washington DC: Selbstverlag / Eigenverlag.
• Moisan, P., Krings, M., Voigt, S., und Kerp, H. 2021. „Fossil roots with root nodules from the Madygen Formation (Ladinian–Carnian; Triassic) of Kyrgyzstan.“ Geobios 2021 (64): 65–75. doi: 10.1016/j.geobios.2020.10.004.
• Steinthorsdottir, M., Jardine, P.E., und and Rember, W.C. 2021. „Near‐Future pCO2 during the hot Mid Miocene Climatic Optimum.“ Paleoceanography and Paleoclimatology 36 (e2020PA003900). doi: 10.1029/2020pa003900.
• Huang, H., Pérez-Pinedo, D., Morley, R.J., Dupont-Nivet, G., Philip, A., Win, Z., Aung, D.W., Licht, A., Jardine, P.E., und and Hoorn, C. 2021. „At a crossroads: The late Eocene flora of central Myanmar owes its composition to plate collision and tropical climate.“ Review of Palaeobotany and Palynology .: 104441.. doi: 10.1016/j.revpalbo.2021.104441.
• Denis, E.H., Maibauer, B.J., Bowen, G.J., Jardine, P.E., Harrington, G.J., Baczynski, A.A., McInerney, F.A., Collinson, M.E., Belcher, C.M., Wing, S.L., und and Freeman, K.H. 2021. „Decreased soil carbon in a warming world: Degraded pyrogenic carbon during the Paleocene-Eocene Thermal Maximum, Bighorn Basin, Wyoming.“ Earth and Planetary Science Letters 566: 116970.. doi: 10.1016/j.epsl.2021.116970.
• Blomenkemper, P., Bäumer, R., Backer, M., Abu, Hamad A., Wang, J., Kerp, H., und Bomfleur, B. 2021. „Bennettitalean Leaves From the Permian of Equatorial Pangea—The Early Radiation of an Iconic Mesozoic Gymnosperm Group.“ Frontiers in Earth Science 9: 1–14. doi: 10.3389/feart.2021.652699.
• Bogotá-Angel G., Huang H., Jardine, P.E., Chazot N., Salamanca S., Banks H., Pardo-Trujillo A., Plata A., Dueñas H., Star W., Langelaan R., Eisawi A., Umeji, O.P., Enuenwemba, L.O., Parmar S., Rocha da Silveira R., Lim, J.Y., Prasad V., Morley, R.J., und Bacon C.D., and Hoorn C. 2021. „Climate and geological change as drivers of Mauritiinae palm biogeography.“ Journal of Biogeography .. doi: 10.1111/jbi.14098.
• Jardine, Lomax, P.E.and, und B.H.. 2021. „A 23 m.y. record of low atmospheric CO2: COMMENT.“ Geology 49 (4): e523.. doi: 10.1130/G48596C.1.
• Zavialova, N., Blomenkemper, P., Kerp, H., Abu Hamad, A., und Bomfleur, B. 2021. „A lyginopterid pollen organ from the upper Permian of the Dead Sea region.“ Grana 60: 81–96. doi: 10.1080/00173134.2020.1772360.
• Jardine, P.E., Hoorn, C., Beer, M.A.M., Barbolini, N., Woutersen, A., Bogotá-Angel, G., Gosling, W.D., Fraser, W.T., Lomax, B.H., Huang, H., Sciumbata, M., He, H., und and, Dupont-Nivet G. 2021. „Sporopollenin chemistry and its durability in the geological record: an integration of extant and fossil chemical data across the seed plants.“ Palaeontology 64. doi: 10.1111/pala.12523.
• Kerp, H., Blomenkemper, P., Abu, Hamad A., und Bomfleur, B. 2021. „The fossil flora of the Dead Sea region, Jordan – A late Permian Garden of Delights.“ Journal of Palaeosciences 2021 (70): 135–158.
• Wang, J., Wan, S., Kerp, H., Bek, J., und Wang, S. 2021. „A whole noeggerathialean plant Tingia unita Wang from the earliest Permian peat-forming flora, Wuda Coalfield, Inner Mongolia.“ Review of Palaeobotany and Palynology 294: 1–23. doi: 10.1016/j.revpalbo.2020.1042040034-6667.
• Wang, J., Pfefferkorn, H.W., Opluštil, S., und Kerp, H. 2021. „Permian ‘vegetational Pompeii’: A peat-forming in situ preserved forest from the Wuda Coalfield, Inner Mongolia, China – Introduction to a volume of detailed studies.“ Review of Palaeobotany and Palynology 294: 1–7. doi: 10.1016/j.revpalbo.2021.104502.
• Seyfullah, L.J., Roberts, E.A., Jardine, Schmidt, P.E.and, und A.R.. 2021. „Experimental induction of resins as a tool to understand variability in ambers.“ Fossil Record 24: 321–337. doi: 10.5194/fr-24-321-2021.

2020

• Hiller, P, Böhme, M, Schneider, S, Prieto, J, und Bomfleur, B. 2020. „Plenasium (Aurealcaulis) elegans sp. nov. from the Eocene of Vietnam—a connecting link in the evolution of modern Royal Ferns (Osmundeae, Osmundaceae).“ Journal of Systematic Palaeontology 18 (8): 703–715.
• Jardine, P.E., Fraser, W.T., Gosling, W.D., Roberts, C.N., Eastwood, Lomax, W.J.and, und B.H.. 2020. „Proxy reconstruction of ultraviolet-B irradiance at the Earth’s surface, and its relationship with solar activity and ozone thickness.“ The Holocene 30 (1): 155–161. doi: 10.1177/0959683619875798.
• Bomfleur, B, Mörs, T, Unverfärth, J, Liu, F, Läufer, A, Castillo, P, Oh, C, Park, T-YS, Woo, J, und Crispini, L. 2020. „Uncharted Permian to Jurassic continental deposits in the far north of Victoria Land, East Antarctica.“ Journal of the Geological Society 2020.
• Unverfärth, J, Mörs, T, und Bomfleur, B. 2020. „Palynological evidence supporting widespread synchronicity of Early Jurassic silicic volcanism throughout the Transantarctic Basin.“ Antarctic Science 32 (5): 396–397. doi: 10.1017/S0954102020000346.
• Kerp, H., Mangerud, G., und Gradstein, S.R. 2020. „Subchapter 3J – Plants, spores and pollen.“ In Geologic Time Scale 2020, Bd. 1 , herausgegeben von F.M. Gradstein, J.G. Ogg., M.S Schmitz und G.M. Ogg. unbekannt / n.a. / unknown.
• Liu, F., Peng, H., Bomfleur, B., Kerp, H., Zhu, H., und Shen, S.Z. 2020. „Palynology and vegetation dynamics across the Permian–Triassic boundary in southern Tibet.“ Earth-Science Reviews 209: 103278.. doi: 10.1016/j.earscirev.2020.103278.
• Harper, C.J., Walker, C., Schwendemann, A., Kerp, H., und Krings, M. 2020. „Archaeosporites rhyniensis gen. et sp. nov. (Glomeromycota, Archaeosporaceae), from the Lower Devonian Rhynie chert – a fungal lineage morphologically unchanged for more than 400 million years.“ Annals of Botany 126: 915–928. doi: 10.1093/aob/mcaa113.
• Liu, F., Peng, H., Bomfleur, B., Kerp, H., Zhu, H.C., und Shen., S.Z. 2020. „Palynology and vegetation dynamics across the Permian–Triassic boundary in southern Tibet.“ Earth-Science Reviews 209: 103278.. doi: 10.1016/j.earscirev.2020.103278.
• Haug, C.Reumer, und J.W.F., Haug J.T. Arillo A. Audo D. Azar D. Baranov V. Beutel R. Charbonnier S. Feldmann R. Foth C. Fraaije R.H.B. Frenzel P. Gasparic R. Greenwalt D.E. Hyzny M. Jagt J.W.M. Jagt-Yazykova E.A. Jarzembowski E. Kerp H. Kirejtshuk A.G. Klug C. Kopylov D.S. Kotthoff U. Kriwet J. Kunzmann L. Ryan C. McKellar R.C. Nel A. Neumann C. Nützel A. Perrichot V. Pint A. Rauhut O. Schneider J.W. Schram F.R. Schweigert G. Selden P. Szwedo J. Van Bakel B.W.M. Van Eldijk T. Vega. F.J. Wang B. Reich M. 2020. „Comment on the letter of the Society of Vertebrate Paleontology (SVP) dated April 21, 2020 regarding ‘Fossils from conflict zones and reproducibility of fossil-based scientific data’: the importance of private collections.“ Paläontologische Zeitschrift 94: 413–429.. doi: 10.1007/s12542-020-00522-x.
• Haug, J.T., Azar, D., Ross, A., Szwedo, J., Wang, B., Arillo, A., Baranov, V., Bechteler, J., Beutel, R., Blagoderov, V., Delclòs, X., Feldberg, K., Feldmann, R., Foth, C., Fraaije, R.H.B., Gehler, A., Harms, D., Hedenäs, L., Hyžný, M.Jagt, J.W.M., Jagt-Yazykova, E.A., Jarzembowski, E., Kerp, H., Khine, P.K., Kirejtshuk, A.G., Klug, C., Kopylov, D.S., Kotthoff, U., Kriwet, J., McKellar, R.C., Nel, A., Nützel, A., Peñalver, E., Perrichot, V., Pint, A., Ragazzi, E., Regalado, L., Reich, M., Rikkinen, J., Schmidt, A.R., Schneider, H., Schram, F.R., Schweigert, G., Selden, P., Solórzano-Kraemer, M.M., Stilwell, J.D., Van Bakel, B.W.M., Vega, F.J., Wang, Y.D., Xing, und L. Haug, C. 2020. „Comment on the letter of the Society of Vertebrate Paleontology (SVP) dated April 21, 2020 regarding ‘Fossils from conflict zones and reproducibility of fossil-based scientific data’: Myanmar amber.“ PalZ 94: 431–437.. doi: 10.1007/s12542-020-00524-9.
• Gastaldo, R.A., Bamford, M., Calder, J., DiMichele, W.A., Ianuzzi, R., Jasper, A., Kerp, H., McLoughlin, S., Opluštil, S., Pfefferkorn, H.W., Roessler, R., und Wang, J. 2020. „The Coal Farms of the Late Paleozoic.“ In Nature Through Time, Springer Textbooks in Earth Sciences, Geography and Environment, herausgegeben von Martinetto, E., Tschopp, E.and Gastaldo und R.A.. Cham: Springer Nature. doi: 10.1007/978-3-030-35058-1_13.
• Gastaldo, R.A., Bamford, M., Calder, J., DiMichele, W.A., Ianuzzi, R., Jasper, A., Kerp, H., McLoughlin, S., Opluštil, S., Pfefferkorn, H.W., Roessler, R., und Wang, J. 2020. „The non-analog vegetation of the Late Paleozoic icehouse–hothouse and their coal-forming forested environments.“ In Nature Through Time, Springer Textbooks in Earth Sciences, Geography and Environment, herausgegeben von Martinetto, E., Tschopp, E.and Gastaldo und R.A.. Cham: Springer Nature. doi: 10.1007/978-3-030-35058-1_12.
• Blomenkemper, P., Kerp, H., Abu, Hamad A., und Bomfleur, B. 2020. „Contributions towards whole-plant reconstructions of Dicroidium plants (Umkomasiaceae) from the Permian of Jordan.“ Review of Palaeobotany and Palynology 278 (104210). doi: 10.1016/j.revpalbo.2020.104210.
• Uhl, D., und H., Kerp. 2020. „Die terrestrische Makroflora des Zechsteins.“ Schriftreihe der Deutschen Gesellschaft für Geowissenschaften 89: 83–91.

2019

• Backer, M, Wan, M, und Wang, J. 2019. „Frond morphology and epidermal anatomy of Compsopteris wongii (T. Halle) Zalessky from the Permian of Shanxi, China.“ Paläontologische Zeitschrift 93 (3): 453–464. doi: 10.1007/s12542-019-00471-0DO-10.1007/s12542-019-00471-0.
• Jardine, P.E., Gosling, W.D., Lomax, B.H., Julier, A.C.M., und and, Fraser W.T. 2019. „Chemotaxonomy of domesticated grasses: a pathway to understanding the origins of agriculture.“ Journal of Micropalaeontology 38: 83–95. doi: 10.5194/jm-38-83-2019.
• Blomenkemper, P, Abu, Hamad A, und Bomfleur, B. 2019. „Cryptokerpia sarlaccophora gen. et sp. nov., an enigmatic plant fossil from the Late Permian Umm Irna Formation of Jordan.“ PalZ 93 (3): 479–485..
• Bomfleur, B, und Escapa, IH. 2019. „A silicified Todea trunk (Osmundaceae) from the Eocene of Patagonia.“ PalZ 93 (3): 543–548.
• Backer, M, Kerp, H, und Bomfleur, B. 2019. „(2709) Proposal to conserve the name Callistophytaceae against Emplectopteridaceae (Pteridospermopsida).“ Taxon 68 (4): 872–873. doi: 10.1002/tax.12111.
• Blomenkemper, P, Kerp, H, und Bomfleur, B. 2019. „A treasure trove of peculiar Permian plant fossils.“ Paläontologische Zeitschrift 93 (4). doi: 10.1007/s12542-019-00489-4.
• Kerp, Hans Röhr Iryna. 2019. „Die ältesten anatomisch erhaltenen fossilen Pflanzen aus dem Ruhrkarbon.“ In Archäologie im Rheinland 2018, herausgegeben von Claßen E, Trier und M. Oppenheim: Nünnerich-Asmus Verlag.
• Liu, F, Kerp, H, Peng, H, Zhu, H, und Peng, J. 2019. „Palynostratigraphy of the Devonian–Carboniferous transition in the Tulong section in South Tibet: A Hangenberg Event sequence analogue in the Himalaya-Tethys zone.“ Palaeogeography, Palaeoclimatology, Palaeoecology 531: Art. 108704.. doi: 10.1016/j.palaeo.2018.03.016.
• Krings, M, und Kerp, H. 2019. „A tiny parasite of unicellular microorganisms from the Lower Devonian Rhynie and Windyfield cherts, Scotland.“ Review of Palaeobotany and Palynology 271: Art 104106.. doi: 10.1016/j.revpalbo.2019.104106.
• Backer, M, Bomfleur, B, und Kerp, H. 2019. „Reconstruction of a small-leaved cordaitalean plant from the Permian of North China by means of cuticular analysis.“ International Journal of Plant Sciences 180: 709–723. doi: 10.1086/704375.
• Jardine, P.E., Kent, M., Fraser, W.T., und and, Lomax B.H. 2019. „Ginkgo leaf cuticle chemistry across changing pCO2 regimes.“ PalZ 93: 549–558. doi: 10.1007/s12542-019-00486-7.
• Lomax, B.H., Lake, J.A., Leng, Jardine, M.J.and, und P.E.. 2019. „An experimental evaluation of the use of D13C as a proxy for palaeoatmospheric CO2.“ Geochimica et Cosmochimica Acta 247: 162–174. doi: 10.1016/j.gca.2018.12.026.
• Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., und and Gosling, W.D. 2019. „Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa.“ Grana 58 (1): 45–62. doi: 10.1080/00173134.2018.1510027.
• Mörs, T, Niedzwiedzki, G, Crispini, L, Läufer, A, und Bomfleur, B. 2019. „First evidence of a tetrapod footprint from the Triassic of northern Victoria Land, Antarctica.“ Polar Research 38 (3438).

2018

• Blomenkemper, P, Kerp, H, Abu, Hamad A, DiMichele, WA, und Bomfleur, B. 2018. „A hidden cradle of plant evolution in Permian tropical lowlands.“ Science 362: 1414–1416. doi: 10.1126/science.aau4061.
• DiMichele, WA, Hook, RW.Kerp H, Hotton, CL, Looy, CV, und Chaney, DS. 2018. „Lower Permian flora of the Sanzenbacher Ranch, Clay County, Texas.“ In Transformative Paleobotany: Papers to Commemorate the Life and Legacy of Thomas N. Taylor, herausgegeben von M Krings, CJ Harper, NR Cúneo und GW Rothwell. London: Academic Press.
• Woutersen, A., Jardine, P.E., Bogotá-Angel, G., Zhang, H.-X., Silvestro, D., Antonelli, A., Gogna, E., Erkens, R.H.J., Gosling, W.D., Dupont-Nivet, G., und and Hoorn, C. 2018. „A novel approach to study the morphology and chemistry of pollen in a phylogenetic context, applied to the steppe-desert taxon Nitraria L. (Nitrariaceae).“ PeerJ 6: e5055.. doi: 10.7717/peerj.5055.
• Wheeley, J.R., Jardine, P.E., Raine, R.J., Boomer, I., und and Smith, M.P. 2018. „Paleoecologic and paleoceanographic interpretation of δ18O taxonomic variability amongst Ordovician (Floian) conodonts.“ Geology 46 (5): 467–470. doi: 10.1130/G40145.1.
• Jardine, P.E., Harrington, G.J., Sessa, Dašková, J.A.and, und J.. 2018. „Drivers and constraints on latitudinal floral diversification gradients.“ Journal of Biogeography 45 (6): 1408–1419. doi: 10.1111/jbi.13216.
• Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K., und and Gosling, W.D. 2018. „The modern pollen-vegetation relationships of a forest-savannah mosaic landscape, Ghana, West Africa.“ Palynology 42 (3): 324–338. doi: 10.1080/01916122.2017.1356392.
• Forte, G, Kustatscher, E, Van Konijnenburg-van, Cittert J HA, und Kerp, H. 2018. „Sphenopterid diversity in the Kungurian of Tregiovo (Trento, NE-Italy).“ Review of Palaeobotany and Palynology 252: 64–76. doi: 10.1016/j.revpalbo.2018.02.006.
• Liu, F, Bomfleur, B, Peng, H, Li, Q, Kerp, H, und Zhu, H. 2018. „280-million-year old fossil starch reveals early plant-animal mutualism.“ Geology 46: 423–426.. doi: 10.1130/G39929.1.
• Gosling, W.D., Julier, A.C.M., Adu-Bredu, S., Djagbletey, G.D., Fraser, W.T., Jardine, P.E., Lomax, B.H., Malhi, Y., Mayle, F.E., und Moore, S. 2018. „Pollen-vegetation richness and diversity relationships in the tropics.“ Vegetation History and Archaeobotany 27 (2): 411–418. doi: 10.1007/s00334-017-0642-y.
• Feng, Z, Wei, H-B, Guo, Y, und Bomfleur, B. 2018. „A conifer-dominated Early Triassic flora from southwest China.“ Science Bulletin 63: 1462–1463.
• Liu, F, Bomfleur, B, Peng, H, Li, Q, Kerp, H, und Zhu, H. 2018. „280-m.y.-old fossil starch reveals early plant-animal mutualism.“ Geology 46 (5): 423–426.
• McLoughlin, S, Bomfleur, B, und Drinnan, AW. 2018. „Pachytestopsis tayloriorum gen. et sp. nov., an anatomically preserved glossopterid seed from the Lopingian of Queensland, Australia.“ In Transformative Paleobotany: Papers to Commemorate the Life and Legacy of Thomas N. Taylor, herausgegeben von M Krings, CJ Harper, NR Cúneo und GW Rothwell. Cambridge: Academic Press.
• Pott, C, Bouchal, JM, Choo, TYS, Yousif, R, und Bomfleur, B. 2018. „Ferns and fern allies from the Carnian (Upper Triassic) of Lunz am See, Lower Austria: A melting pot of Mesozoic fern vegetation.“ Palaeontographica Abt. B 297 (1-6): 1–101.
• Tomescu, AMF, Bomfleur, B, Bippus, AC, und Savoretti, MA. 2018. „Why Are Bryophytes So Rare in the Fossil Record? A Spotlight on Taphonomy and Fossil Preservation.“ In Transformative Paleobotany: Papers to Commemorate the Life and Legacy of Thomas N. Taylor, herausgegeben von M Krings, CJ Harper, NR Cúneo und GW Rothwell. Cambridge: Academic Press.
• Hartkopf-Fröder, C, Gosny, O, Kerp, H, Littke, R, Meinhold, G., und Ziegler, G. 2018. „Das Ende des Bergbaus in den Steinkohlenrevieren von Nordrhein-Westfalen.“ In Das Ganze ist mehr als die Summe der Teile. Festschrift für Jürgen Künow, herausgegeben von M Aufleger und P Tutlies. LVR-Amt für Bodendenkmalpflege Rheinland.
• DiMichele, WA, Lucas, SG, Chaney, DS, Donovan, MP, Kerp, H, Koll, RA, und Looy, CV. 2018. „Early Permian Flora, Doña Ana Mountains, Southern New Mexico, with Special Consideration of Taxonomic Issues and Arthropod Damage.“ New Mexico Museum of Natural History and Science Bulletin 79: 165–205.
• Krings, M, Harper, CJ, Kerp, H, und Taylor, EL. 2018. „Exceptional preservation of sessile, long-stalked microorganisms in the Lower Devonian Windyfield chert (Scotland).“ In Transformative Paleobotany: Papers to Commemorate the Life and Legacy of Thomas N. Taylor, herausgegeben von M Krings, CJ Harper, NR Cúneo und GW Rothwell. Academic Press.
• Bomfleur, B, Blomenkemper, P, Kerp, H, und McLoughlin, S. 2018. „Polar Regions of the Mesozoic–Paleogene greenhouse world as refugia for relict plant groups.“ In Transformative Paleobotany: Papers to Commemorate the Life and Legacy of Thomas N. Taylor, herausgegeben von M Krings, CJ Harper, NR Cúneo und GW Rothwell. Academic Press.

2017

• Kustatscher, E., Van Konijnenburg-van Cittert, J.H.A., Looy, C.V., Labandeira, C.C., Wappler, T., Butzmann, R., Fischer, T.C., Krings, M., Kerp, H., und Visscher, H. 2017. „The Lopingian (late Permian) flora from the Bletterbach Gorge in the Dolomites, Northern Italy: a review.“ Geo.Alp 14: 39–61.
• Feng, Z., Lv, Y., Guo, Y., Wei, H.-B., und Kerp, H. 2017. „Leaf anatomy of a late Palaeozoic cycad.“ Biology Letters 13: 20170456.. doi: 10.1098/rsbl.2017.0456.
• DiMichele, WA, Lucas, SG, Looy, CV, Kerp, H, und Chaney, DA. 2017. „Plant Fossils from the Pennsylvanian–Permian Transition in Western Pangea, Abo Pass, New Mexico.“ Smithsonian Contributions to Paleobiology 99: 1–40.
• Jardine, PE, und Lomax, BH. 2017. „Is pollen size a robust proxy for moisture availability?“ Review of Palaeobotany and Palynology 246: 161–166. doi: 10.1016/j.revpalbo.2017.06.013.