CitationReferencelink

Pound et al 2019

Pound MJ, O'Keefe JMK, Nuñez Otaño NB, Riding JB (2019) Three new Miocene fungal palynomorphs from the Brassington Formation, Derbyshire, UK. Palynology, DOI: 10.1080/01916122.2018.1473300.click

McCarthy et al 2018

McCarthy FMG, Riddick NL, Volik O, Danesh DC, Krueger AM (2018) Algal palynomorphs as proxies of human impact on freshwater resources in the Great Lake region. Anthropocene 21: 16-31.click

van Asperen 2017

van Asperen E (2017) Fungal diversity on dung of tropical animals in temperate environments: Implications for reconstructing past megafaunal populations. Fungal Ecology 28: 25-32.click

Johnson et al 2015

Johnson CN, Rule S, Haberle SG, Turney CSM, Kershaw AP, Brook BW (2015) Using dung fungi to interpret decline and extinction of megaherbivores: problems and solutions. Quaternary Science Reviews 110: 107-113.click

Wood et al 2013

Wood JR, Wilmshurst JM (2013) Accumulation rates or percentages? How to quantify Sporormiella and other coprophilous fungal spores to detect late Quaternary megafaunal extinction events. Quaternary Science Reviews 77: 1-3.click

Stivrins et al 2019a

Stivrins N, Cerina A, Gałka M, Heinsalu A, Lõugas L, Veski S (2019) Large herbivore population and vegetation dynamics 14,600–8300 years ago in central Latvia, northeastern Europe. Review of Palaeobotany and Palynology 266: 42-51.click

Shumilovskikh et al 2019

Shumilovskikh LS, Schlütz F, Lorenz M, Tomaselli B (2019) Non-pollen palynomorphs notes: 3. Phototrophic loricate euglenoids in palaeoecology and the effect of acetolysis on Trachelomonas loricae. Review of Palaeobotany and Palynology, in press, https://doi.org/10.1016/j.revpalbo.2019.06.017click

Stivrins et al 2018

Stivrins N, Soininen J, Tõnno I, Freiberg R, Veski S, Kisand V (2018) Towards understanding the abundance of non-pollen palynomorphs: A comparison of fossil algae, algal pigments and sedaDNA from temperate lake sediments. Review of Palaeobotany and Palynology 249: 9-15.click

Shumilovskikh et al 2017a

Shumilovskikh LS, Ferrer A, Schlütz F (2017) Non-pollen palynomorphs notes: 2. Holocene record of Megalohypha aqua-dulces, its relation to the fossil form genus Fusiformisporites and association with lignicolous freshwater fungi. Review of Palaeobotany and Palynology 246, 167-176. DOI: 10.1016/j.revpalbo.2017.07.002.click

Hawksworth et al 2016

Hawksworth DL, van Geel B, Wiltshire PEJ (2016) The enigma of the Diporotheca palynomorph. Review of Palaeobotany and Palynology 235: 94-98.click

van Asperen et al 2016

van Asperen EN, Kirby JR, Hunt CO (2016) The effect of preparation methods on dung fungal spores: Implications for recognition of megafaunal populations. Review of Palaeobotany and Palynology 229: 1–8.click

Ghosh et al 2017

Ghosh R, Paruya DK, Acharya K, Ghorai N, Bera S (2017) How reliable are non-pollen palynomorphs in tracing vegetation changes and grazing activities? Study from the Darjeeling Himalaya, India. Palaeogeography, Palaeoclimatology, Palaeoecology 475: 23-40.click

Jones et al 2018

Jones SE, Burjachs F, Ferrer-García C, Giralt S, Schulte L, Fernández-López de Pablo J (2018) A multi-proxy approach to understanding complex responces of salt-lake catchments to climate variability and human pressure: A Late Quaternary case study from south-eastern Spain. Quaternary Science Reviews 184: 201-223.click

Stivrins et al 2019b

Stivrins N, Aakala T, Ilvonen L, Pasanen L, Kuuluvainen T, Vasander H, Gałka M, Disbrey HR, Liepins J, Hölmström L, Seppä H (2019) Integrating fire-scar, charcoal and fungal spore data to study fire events in the boreal forest of northern Europe. The Holocene in press DOI: 10.1177/0959683619854524click

Musotto et al 2017

Musotto LL, Borromei AM, Bianchinotti MV, Coronato A (2017) Late Quaternary palaeoenvironmental reconstruction of central Tierra del Fuego (Argentina) based on pollen and fungi. Quaternary International 442: 13-25.click

Etienne et al 2014

Etienne D, Jourffroy-Bapicot I (2014) Optimal counting limit for fungal spore abundance estimation using Sporormiella as a case study. Vegetation History and Archaeobotany 23: 743-749.click

Malloch et al 1991

Malloch D, Cain RF (1971) New cleistothecial Sordariaceae and a new family, Coniochaetaceae. Can. J. Bot. 49, 869–880.click

Guarro et al 1997

Guarro J, Al-Saadoon AH, Gené J, Abdullah SK (1997) Two new cleistothecial ascomycetes from Iraq. Mycologia 89, 955–961.click

Tunno et al 2017

Tunno I, Mesing SA (2017) The value of non-pollen palynomorphs in interpreting paleoecological change in the Great Basin (Nevada, USA). Quaternary Research 87: 529-543.click

Etienne et al 2013

Etienne D, Wilhelm B, Sabastier P, Reyss J-L, Arnaud F (2013) Influence of sample location and livestock numbers on Sporormiella concentrations and accumulation rates in surface sediments of Lake Allos, French Alps. Journal of Paleolimnology 49: 117-127.click

Perrotti et al 2019

Perrotti AG, van Asperen E (2019) Dung fungi as a proxy for megaherbivores: opportunities and limitations for archaeological applications. Vegetation History and Archaeobotany 28: 93-104click

Rodríguez-Zorro et al 2017

Rodríguez-Zorro PA, Lima da Costa M, Behling H (2017) Mid-Holocene vegetation dynamics with an early expansion of Mauritia flexuosa palm trees inferred from the Serra do Tepequém in the savannas of Roraima State in Amazonia, northwestern Brazil. Veget. Hist. Archaeobot. 26:455-468.click

Doyen et al 2017

Doyen E, Etienne D (2017) Ecological and human land-use indicator value of fungal spore morphotypes and assemblages. Vegetation History and Archaeobotany 26: 357-367.click

Bosi et al 2019

Bosi G, Labate D, Rinaldi R, Montecchi MC (2019) A survey of the Late Roman period (3rd-6th century AD): Pollen, NPPs and seeds/fruits for reconstructing environmental and cultural changes after the floods in Northern Italy. Quaternary International 499 A: 3-23click

van Geel et al 1988a

van Geel B, Andersen ST (1988) Fossil ascospores of the parasitic fungus Ustulina deusta in Eemian deposits in Denmark. Rev. Palaeobot. Palynol. 56:89-93. click

Enevold et al 2019

Enevold R, Rasmussen P, Løvschal M, Olsen J, Odgaard BV (2019) Circumstantial evidence of non-pollen palynomorph palaeoecology: a 5,500 year NPP record from forest hollow sediments compared to pollen and macrofossil inferred palaeoenvironments. Vegetation History and Archaeobotany 28:105-121click

Goh and Hyde, 1999

Goh TK, Hyde KD (1999) A synopsis of Trichocladium species, based on the literature. Fungal Divers 2:101–118click

Cugny 2011

Cugny C.( 2011) Apports des microfossiles non-polliniques à l'histoire du pastoralisme sur le versant nord Pyrénéen. Entre référentiels actuels et reconstitution du passé (Doctoral thesis) University of Toulouse—Le Mirail, Toulouseclick

Out 2010

Out WA (2010) Integrated archaeobotanical analysis: Human impact at the Dutch Neolithic wetland site the Hazendonk. J. Archaeol. Sci. 37:1521–1531.

Ran 1990

Ran ETH (1990) Dynamics of vegetation and environment during the middle Pleniglacial in the Dinkel valley (The Netherlands). Meded. Rijks Geol. Dienst 44:139-205.

Bell 1983

Bell A (1983) Dung Fungi. An Illustrated Guide to the Coprophilous Fungi in NewZealand. Victoria University Press, Wellington.

Cook 2009

Cook EJ (2009) A record of late Quaternary environments at lunette-lakes Bolac and Turangmoroke, Western Victoria, Australia, based on pollen and a range of non-pollen palynomorphs. Review of Palaeobotany and Palynology 153, 185-224.

Haas 1995

Haas JN (1995) Mid-Holocene climatic oscillations and human impact on the vegetation around Zürich, Switzerland. Thesis. Univ. Basel. Basel

Haas 1996

Haas JN (1996) Neorhabdocoela oocytes - palaeoecological indicators found in pollen preparations from Holocene freshwater lake sediments. Rev. Palaeobot. Palynol. 91:371-382.

Haas 2010

Haas JN (2010) Fresh insights into the palaeoecological and palaeoclimatological value of Quaternary non-pollen palynomorphs. Veg. Hist. Archaeobot. 19:389-390.

Pini 2004

Pini R, Ravazzi C, Donegana M (2004) Late Neolithic vegetation history at the pile-dwelling site of Palù di Livenza (north-eastern Italy). J. Quaternary Sci. 19:769-781.

Davis 1987

Davis OK (1987) Spores of the dung fungus Sporormiella: increased abundance in historic sediments and before Pleistocene megafaunal extinction. Quaternary Res. 28:290-294.

Ellis 1971

Ellis MB (1971) Dematiaceous Hyphomycetes. Commonwealth Mycological Institute, Kew.

Kuhry 1985

Kuhry (1985) Transgressions of a raised bog across a coverstand ridge originally covered with an oak-lime forest. Rev. Palaeobot. Palynol. 44:313-353.

Kuhry 1988

Kuhry P (1988) A palaeobotanical and palynological study of Holocene peat from the El Bosque mire. Located in a volcanic area of the Cordillera central of Colombia. Rev. Palaeobot. Palynol. 55:19-72.

Kurhy 1997

Kuhry P (1997) The palaeoecology ot a treed bog in western boreal Canada: a study based on microfossils, macrofossils and physico-chemical properties. Rev. Palaeobot. Palynol. 96:183-224.

Looze 1989

Looze GAM (1989) Een palaeo-oecologisch onderzoek van een sektie uit een berkenbos op een verland petgat in het moerasboscomplex "De Suikerpot". Int. Rap. H. de Vries Lab, Uni Amst. 267.

Miola 2012

Miola A (2012) Tools for Non-Pollen Palynomorphs (NPPs) analysis: A list of Quaternary NPP types and reference literature in English language (1972-2011). Review of Palaeobotany and Palynology 186:142-161.

Rixen 1961

Rixen JU (1961) Kleinturbellarien aus dem Litoral der Binnengewasser Schleswig-Holsteins. Arch. Hydrobiol. 57(4):464-538

Ahrens 1996

Ahrens SJ (1996) Een palaeoecologische studie van de overgang van de Jonge Dryas naar het Holoceen in een beekvulling bij Borne (Twente). Int. Rap. H. de Vries Lab, Uni Amst. 304.

Clarke 1965

Clarke RT (1965) Fungal spores from Vermejo Formation coal beds (Upper Cretaceous) of central Colorado. Mt. Geol. 2, 85–93.

Klaver 1981

Klaver E (1981) Een Holocene vegetatie successie in het Fochtelooerveen. Int. Rap. H. de Vries Lab, Uni Amst. 101.

Luther 1955

Luther A (1955) Die Dalyelliiden (Turbellaria Neorhabdocoela) eine Monographie. Acta Zool. Fenn.87:1-337

Luther 1963

Luther A (1963) Die Dalyelliiden (Turbellaria Neorhabdocoela) eine Monographie. Acta Zool. Fenn. 87:1-337

Monard 1919

Monard A (1919) La faune profonde du lac de Neuchâtel. Bull.Soc.Neuch.Sci.Nat. 44:1-176