| # | Document title | Authors | Year | Source | Cited by |
| 1 | Finding needles in haystacks: Linking scientific names, reference specimens and molecular data for Fungi | Schoch C.L., Robbertse B., Robert V., Vu D., Cardinali G., Irinyi L., Meyer W., Nilsson R.H., Hughes K., Miller A.N., Kirk P.M., Abarenkov K., Aime M.C., Ariyawansa H.A., Bidartondo M., Boekhout T., Buyck B., Cai Q., Chen J., Crespo A., Crous P.W., Damm U., De Beer Z.W., Dentinger B.T.M., Divakar P.K., Dueñas M., Feau N., Fliegerova K., García M.A., Ge Z.W., Griffith G.W., Groenewald J.Z., Groenewald M., Grube M., Gryzenhout M., Gueidan C., Guo L., Hambleton S., Hamelin R., Hansen K., Hofstetter V., Hong S.B., Houbraken J., Hyde K.D., Inderbitzin P., Johnston P.R., Karunarathna S.C., Kõljalg U., Kovács G.M., Kovács G.M., Kraichak E., Krizsan K., Kurtzman C.P., Larsson K.H., Leavitt S., Letcher P.M., Liimatainen K., Liu J.K., Lodge D.J., Luangsa-Ard J.J., Lumbsch H.T., Maharachchikumbura S.S.N., Manamgoda D., Martín M.P., Minnis A.M., Moncalvo J.M., Mulè G., Nakasone K.K., Niskanen T., Olariaga I., Papp T., Petkovits T., Pino-Bodas R., Powell M.J., Raja H.A., Redecker D., Sarmiento-Ramirez J.M., Seifert K.A., Shrestha B., Stenroos S., Stielow B., Suh S.O., Tanaka K., Tedersoo L., Telleria M.T., Udayanga D., Untereiner W.A., Uribeondo J.D., Subbarao K.V., Vágvölgyi C., Visagie C., Voigt K., Walker D.M., Weir B.S., Weiß M., Wijayawardene N.N., Wingfield M.J., Xu J.P., Yang Z.L., Zhang N., Zhuang W.Y. | 2014 | Database
2014 | 159 |
| 2 | One hundred and seventy-five new species of Graphidaceae: Closing the gap or a drop in the bucket? | Lücking R., Johnston M., Aptroot A., Kraichak E., Lendemer J., Boonpragob K., Cáceres M., Ertz D., Ferraro L., Jia Z., Kalb K., Kalb K., Mangold A., Manoch L., Mercado-Díaz J., Moncada B., Mongkolsuk P., Papong K., Parnmen S., Peláez R., Poengsungnoen V., Plata E., Saipunkaew W., Sipman H., Sutjaritturakan J., Sutjaritturakan J., Van Den Broeck D., Konrat M., Weerakoon G., Lumbsch H. | 2014 | Phytotaxa
189(1),pp. 007-038 | 57 |
| 3 | Fungal specificity and selectivity for algae play a major role in determining lichen partnerships across diverse ecogeographic regions in the lichen-forming family Parmeliaceae (Ascomycota) | Leavitt S.D., Leavitt S.D., Kraichak E., Kraichak E., Nelsen M.P., Altermann S., Divakar P.K., Alors D., Esslinger T.L., Crespo A., Lumbsch T. | 2015 | Molecular Ecology
24(14),pp. 3779-3797 | 53 |
| 4 | Towards a revised generic classification of lecanoroid lichens (Lecanoraceae, Ascomycota) based on molecular, morphological and chemical evidence | Zhao X., Leavitt S.D., Zhao Z.T., Zhang L.L., Arup U., Grube M., Pérez-Ortega S., Pérez-Ortega S., Printzen C., Śliwa L., Kraichak E., Divakar P.K., Crespo A., Thorsten Lumbsch H. | 2016 | Fungal Diversity
78(1),pp. 293-304 | 46 |
| 5 | Using a temporal phylogenetic method to harmonize family- and genus-level classification in the largest clade of lichen-forming fungi | Divakar P.K., Crespo A., Kraichak E., Leavitt S.D., Singh G., Schmitt I., Lumbsch H.T. | 2017 | Fungal Diversity
84(1),pp. 101-117 | 43 |
| 6 | A tale of two hyper-diversities: Diversification dynamics of the two largest families of lichenized fungi | Kraichak E., Kraichak E., Divakar P.K., Crespo A., Leavitt S.D., Nelsen M.P., Nelsen M.P., Lücking R., Lumbsch H.T. | 2015 | Scientific Reports
5 | 32 |
| 7 | New higher taxa in the lichen family Graphidaceae (lichenized Ascomycota: Ostropales) based on a three-gene skeleton phylogeny | Lumbsch H.T., Kraichak E., Parnmen S., Plata E.R., Aptroot A., Cáceres M.E.S., Ertz D., Feuerstein S.C., Mercado-Díaz J.A., Staiger B., Van Den Broeck D., Lücking R. | 2014 | Phytotaxa
189(1),pp. 039-051 | 31 |
| 8 | A revised classification of orders and families in the two major subclasses of Lecanoromycetes (Ascomycota) based on a temporal approach | Kraichak E., Huang J., Nelsen M., Leavitt S., Thorsten Lumbsch H. | 2018 | Botanical Journal of the Linnean Society
188(3),pp. 233-249 | 29 |
| 9 | Revisiting the phylogeny of Ocellularieae, the second largest tribe within Graphidaceae (lichenized Ascomycota: Ostropales) | Kraichak E., Parnmen S., Lücking R., Plata E., Aptroot A., Cáceres M., Ertz D., Mangold A., Mercado-Díaz J., Papong K., Van Den Broeck D., Weerakoon G., Lumbsch H. | 2014 | Phytotaxa
189(1),pp. 052-081 | 24 |
| 10 | High frequency of character transformations is phylogenetically structured within the lichenized fungal family Graphidaceae (Ascomycota: Ostropales) | Lumbsch H., Parnmen S., Parnmen S., Kraichak E., Papong K., Lücking R. | 2014 | Systematics and Biodiversity
12(3),pp. 271-291 | 22 |
| 11 | Hidden diversity in the morphologically variable script lichen (Graphis scripta) complex (Ascomycota, Ostropales, Graphidaceae) | Kraichak E., Kraichak E., Lücking R., Aptroot A., Beck A., Dornes P., John V., Lendemer J., Nelsen M., Neuwirth G., Nutakki A., Parnmen S., Sohrabi M., Tønsberg T., Lumbsch H. | 2015 | Organisms Diversity and Evolution
15(3),pp. 447-458 | 18 |
| 12 | Cryptic diversity and symbiont interactions in rock-posy lichens | Leavitt S., Kraichak E., Vondrak J., Nelsen M., Sohrabi M., Perez-Ortega S., St Clair L., Lumbsch H. | 2016 | Molecular Phylogenetics and Evolution
99,pp. 261-274 | 17 |
| 13 | A new checklist of lichenized fungi occurring in Thailand | Buaruang K., Boonpragob K., Mongkolsuk P., Sangvichien E., Vongshewarat K., Polyiam W., Rangsiruji A., Saipunkaew W., Naksuwankul K., Kalb J., Parnmen S., Kraichak E., Phraphuchamnong P., Meesim S., Luangsuphabool T., Nirongbut P., Poengsungnoen V., Duangphui N., Sodamuk M., Phokaeo S., Molsil M., Aptroot A., Kalb K., Kalb K., Lücking R., Lumbsch H. | 2017 | MycoKeys
23,pp. 1-91 | 16 |
| 14 | Asexual propagules as an adaptive trait for epiphylly in tropical leafy liverworts (Lejeuneaceae) | Kraichak E. | 2012 | American Journal of Botany
99(9),pp. 1436-1444 | 15 |
| 15 | Twenty-three new species in the lichen family Graphidaceae from New Caledonia (Ostropales, Ascomycota) | Papong K., Lücking R., Kraichak E., Parnmen S., Von Konrat M., Lumbsch H. | 2014 | Phytotaxa
189(1),pp. 204-231 | 15 |
| 16 | Picking holes in traditional species delimitations: an integrative taxonomic reassessment of the Parmotrema perforatum group (Parmeliaceae, Ascomycota) | Widhelm T., Widhelm T., Egan R., Bertoletti F., Asztalos M., Kraichak E., Leavitt S., Lumbsch H. | 2016 | Botanical Journal of the Linnean Society
182(4),pp. 868-884 | 12 |
| 17 | Gintarasia and Xalocoa, two new genera to accommodate temperate to subtropical species in the predominantly tropical Graphidaceae (Ostropales, Ascomycota) | Kraichak E., Parnmen S., Lücking R., Lumbsch H. | 2013 | Australian Systematic Botany
26(6),pp. 466-474 | 11 |
| 18 | A temporal banding approach for consistent taxonomic ranking above the species level | Kraichak E., Crespo A., Divakar P., Leavitt S., Lumbsch H. | 2017 | Scientific Reports
7(1) | 10 |
| 19 | Morphology-based phylogenetic binning to assess a taxonomic challenge: A case study in Graphidaceae (Ascomycota) requires a new generic name for the widespread Leptotrema wightii | Lücking R., Lücking R., Mangold A., Rivas Plata E., Parnmen S., Kraichak E., Lumbsch H. | 2015 | Botanical Journal of the Linnean Society
179(3),pp. 436-443 | 8 |
| 20 | Characterization of Fungus-Specific Microsatellite Markers in the Lichen-Forming Fungus Parmelina Carporrhizans (Parmeliaceae) | Alors D., Dal Grande F., Schmitt I., Kraichak E., Kraichak E., Lumbsch H., Crespo A., Divakar P. | 2014 | Applications in Plant Sciences
2(12) | 6 |
| 21 | New species and records of the lichen genus Graphis (Graphidaceae, Ascomycota) from Thailand | Pitakpong A., Kraichak E., Papong K., Muangsan N., Suwanwaree P., Lumbsch H., Lücking R. | 2015 | Lichenologist
47(5),pp. 335-342 | 6 |
| 22 | A unique trait associated with increased diversification in a hyperdiverse family of tropical lichen–forming fungi | Kraichak E., Kraichak E., Lücking R., Lumbsch H. | 2015 | International Journal of Plant Sciences
176(7),pp. 597-606 | 6 |
| 23 | Diversity of PBI-DdeI satellite DNA in snakes correlates with rapid independent evolution and different functional roles | Thongchum R., Singchat W., Laopichienpong N., Tawichasri P., Kraichak E., Prakhongcheep O., Sillapaprayoon S., Muangmai N., Baicharoen S., Suntrarachun S., Chanhome L., Peyachoknagul S., Srikulnath K., Srikulnath K. | 2019 | Scientific Reports
9(1) | 6 |
| 24 | Five new species of Graphidaceae (Ascomycota, Ostropales) from Thailand | Naksuwankul K., Kraichak E., Parnmen S., Lücking R., Lumbsch H. | 2016 | MycoKeys
17,pp. 47-63 | 5 |
| 25 | Microclimate fluctuation correlated with beta diversity of epiphyllous bryophyte communities | Kraichak E., Kraichak E., Kraichak E. | 2014 | Biotropica
46(5),pp. 575-582 | 5 |
| 26 | Distance and habitat drive fine scale stingless bee (Hymenoptera: Apidae) community turnover across naturally heterogeneous forests in the Western Amazon | Misiewicz T., Misiewicz T., Kraichak E., Kraichak E., Rasmussen C. | 2014 | Sociobiology
61(4),pp. 407-414 | 5 |
| 27 | Dynamics of telomere length in captive Siamese cobra (Naja kaouthia) related to age and sex | Singchat W., Kraichak E., Tawichasri P., Tawan T., Suntronpong A., Sillapaprayoon S., Phatcharakullawarawat R., Muangmai N., Suntrarachun S., Baicharoen S., Punyapornwithaya V., Peyachoknagul S., Chanhome L., Srikulnath K., Srikulnath K. | 2019 | Ecology and Evolution
9(11),pp. 6366-6377 | 4 |
| 28 | Characterization of centromeric satellite DNAs (MALREP) in the Asian swamp eel (Monopterus albus) suggests the possible origin of repeats from transposable elements | Suntronpong A., Singchat W., Kruasuwan W., Prakhongcheep O., Sillapaprayoon S., Muangmai N., Somyong S., Indananda C., Kraichak E., Peyachoknagul S., Srikulnath K., Srikulnath K., Srikulnath K. | 2020 | Genomics
112(5),pp. 3097-3107 | 3 |
| 29 | Accelerated diversifications in three diverse families of morphologically complex lichen-forming fungi link to major historical events | Huang J., Huang J., Kraichak E., Leavitt S., Nelsen M., Lumbsch H. | 2019 | Scientific Reports
9(1) | 3 |
| 30 | Chemovariation and antibacterial activity of extracts and isolated compounds from species of Ixora and Greenea (Ixoroideae, Rubiaceae) | Buathong R., Chamchumroon V., Schinnerl J., Bacher M., Santimaleeworagun W., Kraichak E., Vajrodaya S. | 2019 | PeerJ
2019(5) | 2 |
| 31 | On the diversity and richness of understory bryophytes at Nectandra Cloud Forest Reserve, Costa Rica | Norris D.H., Kraichak E., Risk A.C., Lucas D., Allard D.J., Rosengren F., Clark T.A., Fenton N., Tessler M., Phephu N., Lennette E.T. | 2017 | Biodiversity Data Journal
5(1) | 2 |
| 32 | Molecular, morphological, and biogeographic perspectives on the classification of acrobolboideae (Acrobolbaceae, marchantiophyta) | Briscoe L.R.E., Briscoe L.R.E., Briscoe L.R.E., Zerega N.J.C., Zerega N.J.C., Lumbsch H.T., Stech M., Stech M., Kraichak E., Von Konrat M.J., Engel J.J., Wickett N.J., Wickett N.J. | 2017 | Phytotaxa
319(1),pp. 56-70 | 2 |
| 33 | Genome-wide SNP analysis of Siamese cobra (Naja kaouthia) reveals the molecular basis of transitions between Z and W sex chromosomes and supports the presence of an ancestral super-sex chromosome in amniotes | Laopichienpong N., Kraichak E., Singchat W., Sillapaprayoon S., Muangmai N., Suntrarachun S., Baicharoen S., Peyachoknagul S., Chanhome L., Ezaz T., Srikulnath K., Srikulnath K., Srikulnath K. | 2020 | Genomics
| 2 |
| 34 | Take one step backward to move forward: Assessment of genetic diversity and population structure of captive Asian woollynecked storks (Ciconia episcopus) | Jangtarwan K., Koomgun T., Prasongmaneerut T., Thongchum R., Singchat W., Tawichasri P., Fukayama T., Sillapaprayoon S., Kraichak E., Muangmai N., Baicharoen S., Punkong C., Peyachoknagul S., Duengkae P., Srikulnath K., Srikulnath K. | 2019 | PLoS ONE
14(10) | 2 |
| 35 | Evaluation of six regions for their potential as DNA barcodes in epiphyllous liverworts from Thailand | Yodphaka S., Boonpragob K., Lumbsch H., Kraichak E., Kraichak E. | 2018 | Applications in Plant Sciences
6(8) | 1 |
| 36 | Scale-dependent co-occurrence patterns of closely related genotypes in a lichen species complex | Kraichak E., Kraichak E., Allende L., Obermayer W., Lücking R., Lumbsch H.T. | 2019 | Plant and Fungal Systematics
64(2),pp. 163-172 | 0 |
| 37 | MaxEnt model for predicting potential distribution of Vitex glabrata R.Br. In Thailand | Promnikorn K., Jutamanee K., Kraichak E. | 2019 | Agriculture and Natural Resources
53(1),pp. 44-48 | 0 |
| 38 | Environmental factors afecting the diversity and photosynthetic pigments of trentepohlia species in Northern Thailand's Chiang Dao wildlife sanctuary | Saraphol S., Vajrodaya S., Kraichak E., Sirikhachornkit A., Sanevas N. | 2020 | Acta Societatis Botanicorum Poloniae
89(1) | 0 |
| 39 | Existence of Bov-B line retrotransposons in snake lineages reveals recent multiple horizontal gene transfers with copy number variation | Puinongpo W., Singchat W., Petpradub S., Kraichak E., Nunome M., Laopichienpong N., Thongchum R., Intarasorn T., Sillapaprayoon S., Indananda C., Muangmai N., Suntrarachun S., Baicharoen S., Chanhome L., Peyachoknagul S., Srikulnath K., Srikulnath K., Srikulnath K. | 2020 | Genes
11(11),pp. 1-22 | 0 |
| 40 | Genome Complexity Reduction High-Throughput Genome Sequencing of Green Iguana (Iguana iguana) Reveal a Paradigm Shift in Understanding Sex-Chromosomal Linkages on Homomorphic X and Y Sex Chromosomes | Koomgun T., Laopichienpong N., Singchat W., Panthum T., Phatcharakullawarawat R., Kraichak E., Sillapaprayoon S., Ahmad S.F., Muangmai N., Peyachoknagul S., Duengkae P., Ezaz T., Srikulnath K., Srikulnath K., Srikulnath K. | 2020 | Frontiers in Genetics
11 | 0 |