Palynology

Papers
(The TQCC of Palynology is 2. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-05-01 to 2024-05-01.)
ArticleCitations
A guide to preparation protocols in palynology26
Additions to the knowledge of the pollen morphology of some Fabaceae from Cerrado forest patches of Brazil14
Middle–late Cambrian acritarchs of the Zagros Basin, southwestern Iran13
Late Eocene (Priabonian) dinoflagellate cysts from Primorsky quarry, southeast Baltic coast, Kaliningrad Oblast, Russia13
Taxonomy and nomenclature in palaeopalynology: basic principles, current challenges and future perspectives12
Pollen morphology of Malvaceae s.l. from Cerrado forest fragments: details of aperture and ornamentation in the pollen types definition12
Pollen morphology of the subfamily Salicornioideae (Chenopodiaceae) in Eurasia and North Africa11
New Neogene index pollen and spore taxa from the Solimões Basin (Western Amazonia), Brazil10
Pollen morphology of Liliaceae and its systematic significance8
A palynological and geographical characterization of labeled resin spurge honey: Euphorbia resinifera8
Monsoonal climatic reconstruction from Central India during the last ca. 3600 cal yr: signatures of global climatic events, based on lacustrine sediment pollen records7
Modern pollen and non-pollen palynomorphs along an altitudinal transect in Jammu and Kashmir (Western Himalaya), India7
Pollen morphology of eight endemic Inula L. (Asteraceae) species in Turkey7
Palynology of selected species of Blechnaceae (Polypodiopsida: Polypodiales)6
The culture and ethos of Palynology6
Palynomorphs in Baltic, Bitterfeld and Ukrainian ambers: a comparison6
Palynostratigraphy of the lower Paleogene Margaret Formation at Stenkul Fiord, Ellesmere Island, Nunavut, Canada5
Comparative palynomorphological study of the genus Symphoricarpos (Caprifoliaceae): exine sculpture and implications for evolution5
High-precision U-Pb CA-ID-TIMS calibration of the Permian Lueckisporites-dominated assemblages in westernmost Gondwana: inferences for correlations5
Palynology and sedimentology of the Pliocene Productive Series from eastern Azerbaijan5
Contributions to melissopalynology studies in southern Brazil: pollen analysis in the honeys from Apis mellifera, Tetragonisca angustula, Melipona quadrifasciata quadrifasciata, <5
Pollen morphology applied to species delimitation of TurkishDianthusL. (Caryophyllaceae)5
Can pollen exine ornamentation contribute to species delimitation in Korean Iris L. taxa (Iridaceae)?5
Acid-free protocol for extracting pollen from Quaternary sediments5
Pollen characters and their evolutionary and taxonomic significance: using light and confocal laser scanning microscope to study diverse plant pollen taxa from central India5
Prestigious early Roman gardens across the Empire: the significance of gardens and horticultural trends evidenced by pollen5
Palaeoclimate reconstruction and age assessment of the Miocene flora from the Trwyn y Parc solution pipe complex of Anglesey, Wales, UK4
Preliminary palynological study of the Upper Ordovician Pin Formation in northern Indian Himalaya4
Pollen sources of Tetragonula biroi (Friese, 1898) (Hymenoptera: Apidae, Meliponini) in two agroecosystems in Nagcarlan, Laguna, Philippines4
Morphological variability of peteinoid acritarchs from the Middle Ordovician of Öland, Sweden, and implications for acritarch classification4
Pollen morphology of Boraginaceae s.l. from Brazilian forest fragments: aperture types and ornamentation on Cordiaceae and Heliotropiaceae4
Determining if honey bees (Apis mellifera) collect pollen from anemophilous plants in the UK4
Palynology from ground zero of the Chicxulub impact, southern Gulf of Mexico4
Hiddenocysta matsuokae gen. et sp. nov. from the Holocene of Vancouver Island, British Columbia, Canada4
Does season matter for moss surface sample collection? A case study from Kungur forest-steppe, pre-Urals, Russia4
A morphological comparison of two cladopyxidacean dinoflagellates: the extant Micracanthodinium setiferum and the fossil Cladopyxidium saeptum (Dinophyceae, Gonyaulacales)4
Palynology of three Neotropical genera of Passifloraceae sensu stricto: Ancistrothyrsus Harms, Dilkea Mast. and Mitostemma Mast.4
Exploration of pollen traits and their taxonomic relevance in selected taxa of the subfamily Papilionoideae from Hainan Island, China3
A snapshot into the Oligocene vegetation of the Tethyan southern shores: new fossil pollen evidence from North Africa (Egypt)3
A palynological investigation of some taxa of the genus Ranunculus L. (Ranunculaceae) in Turkey and its taxonomic value3
From hystrichospheres to dinoflagellate cysts: Scandinavian contributions to Evitt’s pivotal recognition of fossil dinoflagellate cysts3
High-resolution Bronze Age palaeoenvironmental change in the Eastern Mediterranean: exploring the links between climate and societies3
Methods in melissopalynology: colour determination of pollen pellets for colour vision deficient individuals3
Palynological study on selected species from Hyacinthaceae with focus on taxonomical implications in Iran3
Modern pollen-vegetation relationship from the Rourkela (Sundargarh District), Odisha, India: a preliminary study and a comparative account3
The biostratigraphy of the Upper Devonian and lowermost Carboniferous of the Khoshyeilagh area, northeastern Alborz, Iran3
Palynological recovery of small carbonaceous fossils (SCFs) indicates that the late Cambrian acritarch Goniomorpha Yin 1986 represents the teeth of a priapulid worm3
Pollen analysis of representatives of the tribes Ampelopsideae, Cayratieae and Parthenocisseae and evolutionary history of Vitaceae genera3
Contribution to Celastraceae palynology from Cerrado forest fragments: a focus on shape, amb and exine ornamentation2
Biostratigraphically significant palynofloras from the Paleocene–Eocene boundary of the USA2
Exotic Devonian palynomorphs from the Sifa-1X well in the Western Desert, Egypt2
Pollen morphology of some selected species of the tribes Brassiceae, Conringieae, Isatideae, and Plagiolobeae (Brassicaceae) in Iran, and its taxonomic significance2
Oligocene–Miocene dinoflagellate cysts from the San Gregorio Formation, La Purísima area, Baja California Sur, Mexico2
Palynology of the recent intertidal sediments of the Southern Red Sea Coast of Saudi Arabia2
Organic tentaculitoids from the Kowala Formation (Devonian) of the Holy Cross Mountains, Poland2
A review of pollen types foraged by Melipona in the Brazilian Amazon2
Middle Miocene (Serravallian; upper Badenian–lower Sarmatian) dinoflagellate cysts from Bad Deutsch-Altenburg, Vienna Basin, Austria2
Melissopalynological investigations of seasonal honey samples from the Greater Kruger National Park, Savanna biome of South Africa2
Pollen morphology of Senegalia Raf. species and related genera (Leguminosae: Caesalpinioideae: mimosoid clade)2
Age constraints of the Guttulapollenites hannonicus–Cladaitina veteadensis Biozone in Argentina reveal the first record of Early Triassic (Olenekian) palynofloras in Western Gondwana2
Pollen morphology of Lactuca L. (s. lat.) (Cichorieae: Asteraceae) from Hindukush, Western Himalayan and Karakorum ranges and its taxonomic significance2
The Sabrina microfloras of East Antarctica: Late Cretaceous, Paleogene or reworked?2
Hornwort (Anthocerotopsida) spores in Late Quaternary wetland sediments and dryland soils, Rapa Nui (Easter Island)2
William Su Ting – China’s forgotten palynologist2
The literature on Triassic, Jurassic and earliest Cretaceous dinoflagellate cysts: supplement five2
Spatial distribution of anemophilous pollen and its correlation with the Asian summer monsoon on the southeastern Tibetan Plateau2
Taxonomic implications of pollen morphology for species ofPassifloraL., subgenusDeidamioides(Harms) Killip (Passifloraceae)2
Honey-producing bee–pollen–vegetation relationships in the West Coast and Western Ghats of India2
Late Paleocene–middle Eocene dinoflagellate cysts from the La Barca Formation, Austral Basin, Argentina2
New Late Cretaceous to earliest Paleogene (Campanian–Danian) dinoflagellate cysts from the Møre Basin, offshore Norway2
Dual nomenclature in organic-walled dinoflagellate cysts II: Spiniferites elongatus and S. membranaceus , and their equivalent non-fossil 2
Descriptive systematics of Upper Palaeocene–Lower Eocene pollen and spores from the northern Niger Delta, south-eastern Nigeria2
Taxonomic significance of pollen morphology of selected taxa of Bassia , Sedobassia , Spirobassia and 2
Palynological study of Allium L. (Amaryllidaceae) in the flora of Egypt2
Acritarchs and prasinophytes from the Lower Devonian (Lochkovian) Ross Formation, Tennessee, USA: stratigraphic and paleogeographic distribution2
Biostratigraphy and palaeogeographic implications of Ordovician and Silurian chitinozoa from the High Zagros Mountains, Northern Persian Gulf, Iran2
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