Palynology

Papers
(The TQCC of Palynology is 3. 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 2021-08-01 to 2025-08-01.)
ArticleCitations
Pollen analysis of representatives of the tribes Ampelopsideae, Cayratieae and Parthenocisseae and evolutionary history of Vitaceae genera26
Morpho-palynological studies of Momordica cymbalaria (Hook, Fenzl) using LM and SEM and its taxonomic significance13
The minimum age of the Goat Paddock Meteor Crater, Western Australia, is Mesozoic and not Early Eocene—the pollen and spore evidence13
Pollen morphology of columnar cacti from Tehuacán-Cuicatlán Valley, Mexico10
Pollen morphology of the genera Basananthe , Deidamia and Efulensia of the tribe Passifloreae (Passiflorace10
Biostratigraphically significant palynofloras from the Paleocene–Eocene boundary of the USA9
The palynology of the Permian succession in the CSDP-2 Well, South Yellow Sea, China8
Pollen morphology of Matthiola and the related genus Dvorakia (Brassicaceae) in Iran8
Microfossils in resin from the middle Eocene Buchanan Lake Formation, Napartulik, Axel Heiberg Island, Nunavut, Canada8
Characterization of plant species and their associated pollen signatures along the Ijesa-Akure Road, Nigeria8
Biostratigraphic analysis of a Late Pleistocene to Holocene section from Punta Pescador, eastern Venezuela8
Characterizing pollen profiles in honey from Melipona quadrifasciata anthidioides : a melissopalynological study7
Correction6
Palynological diversity of some species of Coussareeae (Rubiaceae) from the Atlantic Forest, Brazil6
Taxonomic significance of pollen morphology of selected taxa of Bassia , Sedobassia , Spirobassia and 6
Diversity matters: Diet of Apis cerana in southeast India includes one consistently occurring and several seasonally available floral sources6
Mid- to Late Holocene (5200–980 cal YR BP) paleoenvironmental dynamics in the Ilha Grande, Brazil, assessed by terrestrial and marine microfossils6
Palynological recovery of small carbonaceous fossils (SCFs) indicates that the late Cambrian acritarch Goniomorpha Yin 1986 represents the teeth of a priapulid worm6
Upper Cretaceous (Cenomanian) palynostratigraphy and palynofacies of the Shushan Basin, North Egypt5
Airborne pollen seasonality of Kars province, a high-altitude region in NE Anatolia-Turkey5
Optimizing in vitro pollen viability and cryopreservation protocols across flower positions in pomegranate cultivars and wild genotypes5
Contribution to the pollen morphology of Astragalus L. section Aegacantha Bunge (Galegeae-Fabaceae) and its systematic significance5
A review of the status of air quality monitoring in the Permian Basin, USA, and its implications for effective long-term monitoring of industrial operations5
Pollen sources used by the stingless bee Schwarziana quadripunctata in a coffee-growing landscape5
Origin of floral resources used by two species of native bees in a livestock agroecological system in Colombia4
Pollen morphology of Napeantheae Wiehler (Gesneriaceae) from Brazil4
Exploration of pollen traits and their taxonomic relevance in selected taxa of the subfamily Papilionoideae from Hainan Island, China4
An evaluation of the process of peer review4
Pollen morphology of endemic Linum species (Linoideae: Linaceae) from Mexico4
Cancellidium intergraniferum (R. Potonié & S.C.D. Sah) G. Worobiec & E. Worobiec, comb. nov. from the Miocene of Poland, with remarks on the fossil history and palaeoecologi4
‘The man who vacuum cleaned the Atlantic’ − the aerosol collector and Gunnar Erdtman’s attempts to measure pollen rain4
Correction4
Reply to: Comments on Mertens et al. (2022): the taxonomic identity of Micracanthodinium setiferum (Lohmann) Deflandre (Dinophyceae incertae sedis) remains elusive, and its epitypificati4
Karen Andrea Steidinger (1938–2023): phytoplankton taxonomist, ecologist, administrator, teacher and mentor4
Beescapes – extracting pollen from historical Danish beeswax to explore honeybee foraging4
Palynotaxonomy of Neotropical species of Paullinia L. (Sapindaceae)4
Pollen micromorphology and ultrastructure between two isolated species of  Colchicum L. in Iran4
Roger Neves (1932–2020)4
A palynological zonation for the Neogene of the Solimões/Amazon Basin, northwestern Amazonia3
Relationship between pollination syndromes, pollen morphology and plant ecology in Quaternary deposits of the Cerrado3
Palynotaxonomy of the subtribe Anisopappinae (Athroismeae, Asteraceae) and the genus Duhaldea (Inuleae, Asteraceae) based on their exine ultrastructure3
Pollen morphology of some Euphorbia taxa and its systematic significance3
A review of pollen types foraged by Melipona in the Brazilian Amazon3
The angiosperm pollen Volkheimerites labyrinthus gen. et sp. nov. from the earliest Paleogene (Danian) of Patagonia, Argentina3
Nectar sources of Asian honeybees ( Apis cerana Fabricius) in West Bengal, India: determined by pollen analysis of honey and bee crop nectar3
Correction3
Characterization of palynological features of Cyclamen species native to Turkey and new approaches for their systematic significance3
Assessing taxon names in palynology (I): working with databases3
Can pollen exine ornamentation contribute to species delimitation in Korean Iris L. taxa (Iridaceae)?3
Palynological study on selected species from Hyacinthaceae with focus on taxonomical implications in Iran3
Floral resources in the larval provisioning of natural nests of Centris (Heterocentris) analis (Fabricius, 1804) in the Atlantic Forest: pollen analysis3
The trials and tribulations of formatting (and reformatting) manuscripts3
Palynology of the Triassic–Jurassic transition of the Danish Basin (Denmark): a palynostratigraphic zonation of the Gassum–lower Fjerritslev formations3
Comparative pollen morphology of the genus Iberis L. (Brassicaceae) in Turkey and its taxonomic implications3
High-resolution Bronze Age palaeoenvironmental change in the Eastern Mediterranean: exploring the links between climate and societies3
Melissopalynological investigations of seasonal honey samples from the Greater Kruger National Park, Savanna biome of South Africa3
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