Bibliography
  1. Amoroso V.B, Aspiras R.A, (2011). Hamiguit an Range: A sanctuary for native flora. Saudi Journal of Biological Sciences 18, 7–15. (PDF)

  2. Anderson L.C, (1999). Collecting and Preparing Plant Specimens and Producing an Herbarium, Association for Biology Laboratory Education (ABLE) 1999. (PDF)

  3. Applequist W.L, Mcglinn D.J, Miller M, Long Q.G, Miller J.S, (2007). How well do herbarium data predict the location of present populations? A test using Echinacea species in Missouri, Biodiversity and Conservation 16, 1397–1407. (PDF)

  4. Asif M.J, Cannon C.H, (2005). DNA  Extraction  From  Processed  Wood:  A  Case Study  for  the  Identification  of  an  Endangered Timber  Species (Gonystylus bancanus). Plant Molecular Biology Reporter 23, 185-192. (PDF)

  5. Auer T, MacEachren A.M, McCabe C, Pezanowski S, Stryker M, (2011). HerbariaViz: A web-based client –server interface for mapping and exploring flora observation data. Ecological Informatics 6, 93 –110. (PDF)

  6. Barker N.P, Fish L, (2007). Rare and infrequent southern African grasses: assessing their conservation status and understanding their biology, Biodiversity and Conservation 16, 4051–4079. (PDF)

  7. Barney J.N, (2006). North American history of two invasive plant species: phytogeographic distribution, dispersal vectors, and multiple introduction. Biological Invasions 8, 703–717. (PDF)

  8. Bartolucci F, Peruzzi L, (2013). Thymus paronychioides (Lamiaceae), a Neglected Species from Sicily Belonging to Thymus sect. Hypodromi. Folia Geobot. DOI 10.1007/s12224-013-9156-2 (PDF)

  9. Bate-Smit E.C, (1965).  Investigation  Of  The  Chemistry  And  Taxonomy Of  Sub-Tribe  Quillajeae  Of  The  Rosaceae  Using Comparisons  Of  Fresh  And  Herbarium  Material. Phytochemistry 4, 535-539. (PDF)

  10. Beard J.S, Chapman A.R, Gioia P, (2000). Species richness and endemism in the Western  Australian flora. Journal of Biogeography 27, 1257 –1268. (PDF)

  11. Bebber D.P, Carine M.A, Wood  J.R.I, Wortley A.H, Harris, D.J,  Prance G.T, Davidse G, Paige J, Pennington T.D, Robson N.K.B, Scotland R.W., (2010). Herbaria are a major frontier for species discovery. Proc. Natl. Acad. Sci. USA, epub ahead of print, doi:10.1073/pnas1011841108. (PDF)

  12. Belyaeva I, Sennikov A, (2008). Typification of Pallas’ names in Salix. Kew Bulletin 63, 277 – 287. (PDF)

  13. Bennett1 S.J, Maxted N, (1997). An ecogeographic analysis of the Vicia narbonensis complex, Genetic Resources and Crop Evolution 44, 411–428. (PDF)

  14. Boedeker C, Immers A, (2009). No more lake balls (Aegagropila linnaei Ku¨ tzing, Cladophorophyceae, Chlorophyta) in The Netherlands?. Aquatic Ecology 43, 891–902. (PDF)

  15. Bowe C, Haq N, (2010). Quantifying the global environmental niche of an underutilised tropical fruit tree (Tamarindus indica) using herbarium records. Agriculture, Ecosystems and Environment 139, 51–58. (PDF)

  16. C. Gimaret-Carpentier, S. Dray, J.-P. Pascal, (2003). Broad-scale biodiversity pattern of the endemic tree flora of the Western Ghats (India) using canonical correlation analysis of herbarium records, Ecography 26(4), 429–444.

  17. Calle Z, Strahler A.H, Borchert R, (2009). Declining insolation induces synchronous flowering of Montanoa and Simsia (Asteraceae) between Mexico and the Equator. Trees 23, 1247–1254. (PDF)

  18. Case M.A, Flinn K.M, Jancaitis J, Alley A, Paxton A, (2007). Declining abundance of American ginseng (Panax quinquefolius L.) documented by herbarium specimens. Biological Conservation 134, 22 – 30. (PDF)

  19. Chong K Y, Lee S.M.L, Gwee A.T, Leong P.K.F, Ahmad S, Ang W.F, Lok A.F.S.L, Yeo C.K, Corlett R.T, Tan H.T.W, (2012). Herbarium records do not predict rediscovery of presumed nationally extinct species. Biodiversity and Conservation 21, 2589–2599. (PDF)

  20. Coates D.J, Atkins K.A, (2001). Priority setting and the conservation of Western Australia's diverse and highly endemic flora. Biological Conservation 97, 251-263. (PDF)

  21. Corney D.P.A, Clark J.Y, Tang H.L, Wilkin P, Automatic Extraction of Leaf Characters from Herbarium Specimens, (http://www.dcorney.com/papers/CorneyTaxon_preprint.pdf).

  22. Cota-sánchez J.H, Remarchuk K, Ubayasena K, (2006). Ready-to-Use DNA Extracted with a CTAB Method Adapted for Herbarium Specimens and Mucilaginous Plant Tissue, Plant Molecular Biology Reporter 24, 161–167. (PDF)

  23. Cozzolino S, Cafasso D, Pellegrino G, Musacchio A, Widmer A, (2007). Genetic variation in time and space: the use of herbarium specimens to reconstruct patterns of genetic variation in the endangered orchid Anacamptis palustris. Conservation Genetics 8, 629–639. (PDF)

  24. Csontos P, Vitalos M, Barina Z, Kiss L, (2010). Early distribution and spread of Ambrosia artemisiifolia in Central and Eastern Europe, Botanica Helvetica 120, 75–78. (PDF)

  25. Dahl A.E, (1989). Taxonomic and morphological studies in Hypecoum sect. Hypecoum (Papaveraceae). Plant Systematics and Evolution 163, 227-280. (PDF)

  26. Delgado M, Fajardo W, Gibaja E, Pe´rez-Pe´rez R, (2005). BioMen: an information system to herbarium. Expert Systems with Applications 28, 507–518. (PDF)

  27. Diskin E, Proctor H, Jebb M, Sparks T, Donnelly A, (2012). The phenology of Rubus fruticosus in Ireland: herbarium specimens provide evidence for the response of phenop hases to temperature, with implications for climate warming, International Journal of Biometeorology (http://www.ncbi.nlm.nih.gov/pubmed/22382508). (PDF)

  28. Dolan R.W, Moore M.E, Stephens J.D, (2011). Documenting effects of urbanization on flora using herbarium records. Journal of Ecology 99, 1055–106. (PDF)

  29. Drabkova L, Kirschner J, Vlk C, (2002). Comparison of Seven DNA Extraction and Amplification Protocols in Historical Herbarium Specimens of Juncaceae. Plant Molecular Biology Reporter 20, 161-175. (PDF)

  30. Droissart V, Hardy O.J, Sonke B, Dahdouh‐Guebas F, Ste´vart T, (2012). Subsampling Herbarium Collections to Assess Geographic Diversity Gradients: A Case Study with Endemic Orchidaceae and Rubiaceae in Cameroon, Biotropica 44(1), 44–52. (PDF)

  31. Felger R.S., Rutman S, Malusa J, Van Devender T.R, (2013).  Ajo Peak to Tinajas Altas: A flora of southwestern Arizona: Part 4. Angiosperms: Magnoliids. Phytoneuron 38, 1–9. (PDF)

  32. Felger, B.T. Wilder, & J.P. Gallo-Reynoso, (2011). Floristic diversity and long-term vegetation dynamics of Isla San Pedro Nolasco, Gulf of California, Mexico. Proceedings of the San Diego Society of Natural History 43, 1–42. (PDF)

  33. Forero E, Pereira F.J, (1976). EDP-IR in the National Herbarium of Colombia (COL), Taxon 25(1), 85-94. (PDF)

  34. Frahm-Leliveld J.A, (1996). Cytotaxonomic Notes On The Genera Indigofera  L. and Cyamopsis  DC. Geneliea 37, 403-426. (PDF)

  35. Fuentes N, Pauchard A, Sa´nchez P, Esquivel J, Marticorena A, (2013). A new comprehensive database of alien plant species in Chile based on herbarium records, Biological Invasions 15, 847–858. (PDF)

  36. Fuentes N, Ugarte E, Kuhn I, Klotz S, (2008). Alien plants in Chile: inferring invasion periods from herbarium records. Biological Invasions 10, 649–657. (PDF)

  37. Gaira K.S, Dhar U, Belwal O.K, (2011). Potential of herbarium records to sequence phonological pattern: a case study of Aconitum heterophyllum in the Himalaya. Biodiversity Conservation 20, 2201–2210. (PDF)

  38. Golding J.S, (2004). The use of specimen information influences the outcomes of Red List assessments: the case of southern African plant specimens. Biodiversity and Conservation 13, 773–780. (PDF)

  39. Hagen J.B, (1984). Experimentalists and Naturalists in Twentieth-Century Botany: Experimental Taxonomy, 1920-1950. Journal of the History of Biology 17(2), 249-270. (PDF)

  40. Hedena¨s L, Bisang I, Tehler A, Hamnede M, Jaederfelt K, Odelvik G, (2002). A herbarium-based method for estimates of temporal frequency changes: mosses in Sweden. Biological Conservation 105, 321–331. (PDF)

  41. Hernandez H.M, Navarro M, (2007). A new method to estimate areas of occupancy using herbarium data. Biodiversity and Conservation 16, 2457–2470. (PDF)

  42. Hildreth J, Hrabeta-Robinson E, Applequist W, Betz J, Miller J, (2007). Standard operating procedure for the collection and preparation of voucher plant specimens for use in the nutraceutical industry. Analytical Bioanalytical Chemisty 389, 13 –17. (PDF)

  43. Hilgert N.I, Gil G.E, (2006). Medicinal plants of the Argentine Yungas plants of the Las Yungas biosphere reserve, Northwest of Argentina, used in health care. Biodiversity and Conservation 15, 2565–2594. (PDF)

  44. Hodkinson T.R, Waldren S, Parnell J.A.N, Kelleher C.T, Salamin K, Salamin N, (2007). DNA banking for plant breeding, biotechnology and biodiversity evaluation. Journal of Plant Research 120, 17–29. (PDF)

  45. Hutchens C, (2011). A Look into the Rocky Mountain Herbarium Library Collection and Digital Projects. Serials Review 37, 35– 37. (PDF)

  46. Iltis H.H, (2000). Homeotic Sexual Translocations and origin of Maize (Zea mays, Poaceae): A New Look at an old problem. Economic Botany 54(1), 7-42. (PDF)

  47. Kampny C.M, Dengler N.G, (1997). Evolution of flower shape in Veroniceae (Scrophulariaceae). Plant Systematics and Evolution 205, 1-25. (PDF)

  48. Kannan R, Shackleton C.M, Shaanker R.U, (2013). Reconstructing the history of introduction and spread of the invasive species, Lantana, at three spatial scales in India. Biological Invasions 15, 1287–1302. (PDF)

  49. Koch M.A, Schro¨der C.N, Kiefer M, Sack P, (2013). A treasure trove of plant biodiversity from the 20th century: The Werner Rauh Heritage Project at Heidelberg Botanical Garden and Herbarium, Plant Systematics and Evolution. (http://link.springer.com/article/10.1007%2Fs00606-013-0835-5). (PDF)

  50. Korpelainen H, Pietilainen M, (2008). Effort to reconstruct past population history in the fern Blechnum spicant. Journal of Plant Research 121, 293–298. (PDF)

  51. Kozhevnikova Z.V, Pak J.H, Hong K.H, Kozhevnikov A.E, (2007). On  the  Question  of a Northern  Boundary for Geographical Distribution  of Viola  diamantiaca  Nakai  in the  Russian Far East. Journal of Plant Biology 50(3), 369-373. (PDF)

  52. Kuzmina M.L, Johnson K.L, Barron H.R, Hebert P. DN, (2012). Identification of the vascular plants of Churchill, Manitoba, using a DNA barcode library. BMC Ecology 12(25), 1-11. (PDF)

  53. Langer R, Saukel J, (1993). Systematics of Primula veris (Primulaceae). Plant  Systematics and Evolution 188, 31-55. (PDF)

  54. Lavoie C, (2013). Biological  collections  in  an  ever  changing  world: Herbaria  as  tools  for biogeographical  and  environmental  studies. Perspectives in Plant Ecology, Evolution and Systematics 15, 68– 76. (PDF)

  55. Lavoie C, Achance D, (2006). A New Herbarium- Based Method For Reconstructing the Phenology Of Plant Species Across Large Areas, American Journal of Botany 93(4), 512–516. (PDF)

  56. Les D.H, Mehrhoff  L.J, (1999). Introduction of non indigenous aquatic vascular plants in southern New England: a historical perspective. Biological Invasions 1, 281–300. (PDF)

  57. Li W, Brlansky R.H, Hartung J.S, (2006). Amplification of DNA of Xanthomonas axonopodis pv. Citri from historic citrus canker herbarium specimens. Jounal of Microbiological Methods 65, 237–246. (PDF)

  58. Li Z, Wu N, Gao X, Wu Y, Oli K.P, (2013). Species-level phenological responses to ‘global warming’ as evidenced by herbarium collections in the Tibetan Autonomous Region, Biodiversity and Conservation 22,141–152. (PDF)

  59. Lienert J, Fischer M, Diemer M, (2002). Local extinctions of the wetland specialist Swertia perennis L. (Gentianaceae) in Switzerland: a revisitation study based on herbarium records. Biological Conservation 103, 65–76. (PDF)

  60. Lihova J, Tribsch A, Stuessy T.F, (2004). Cardamine apennina: a new endemic diploid species of the C. pratensis group (Brassicaceae) from Italy. Plant Systematics and Evolution 245, 69–92. (PDF)

  61. Lowry P.P, Plunkett G.M, Frdin D.G, (2013). Revision of Plerandra (Araliaceae). I. A synopsis of the genus with an expanded circumscription and a new infra generic classification. Brittonia 65(1), 42 –61. (PDF)

  62. Luneva N.N, Chukhina I.G, Lebedeva E.G, (2000). An information retrieval system for VIR’s herbarium, St. Petersburg, Russia, as a tool for cultivated plant research. Genetic Resources and Crop Evolution 47, 147–152. (PDF)

  63. MacDougall A.S, Loo J.A, Clayden S.R, Goltz J.G, Hinds H.R, (1998). Defining conservation priorities for plant taxa in southeastern New Brunswick, Canada using herbarium records. Biological Conservation 86, 325-338. (PDF)

  64. Maden K, (2004). Plant Collection and Herbarium Techniques. Our Nature 2, 53-57. (PDF)

  65. Martine C.T, Ward M.E, (2013). Establishment of regional herbarium leads to more than 200 new flora atlas records for New York State. The Journal of the Torrey Botanical Society 140(1), 125-131. (PDF)

  66. Mártonfi P, (2008). Hypericum dubium Leers —New Data on Taxonomy and Biology. Folia Geobot 43, 69– 82. (PDF)

  67. Miller J.S, Porter-Morgan H.A, Stevens H, Boom B,  Krupnick G.A, Acevedo-Rodrı´guez P, Fleming J, Gensler M, (2012). Addressing target two of the Global Strategy for Plant Conservation by rapidly identifying plants at risk, Biodiversity and Conservation 21, 1877–1887. (PDF)

  68. Moran R.C, (2001). Estimates  of  the  number  of  mounted  pteridophyte specimens  in  six  major  herbaria  in  the  United  States, Brittonia 53(3), 435436. (PDF)

  69. Muller T, (1994). The  role  a  botanical  institute  can  play  in  the conservation  of  the  terrestrial  biodiversity  in  a developing  country. Biodiversity and Conservation 3, 116-125. (PDF)

  70. Neil K.L, Landrum L, Wu J, (2010). Effects of urbanization on flowering phenology in the metropolitan phoenix region of USA: Findings from herbarium record. Journal of Arid Environments 74, 440–444. (PDF)

  71. Nitta M, Lee J.K, Kang C W, Katsuta M, Yasumoto S, Liu D, Nagamine T, Ohnishi O, (2005). The distribution of Perilla species, Genetic Resources and Crop Evolution 52, 797 – 804. (PDF)

  72. Oyarzun R, Higueras P, Esbrí J.M, J Pizarro J, (2007). Mercury in air and plant specimens in herbaria: A pilot study at the MAF Herbarium in Madrid (Spain), Science of the Total Environment 387, 346–352. (PDF)

  73. Pachschwoll C, Puscas M, Schonswetter P, (2011). Distribution of Doronicum clusii and D. stiriacum (Asteraceae) in the Alps and Carpathians. Biologia 66(6) 977—987. (PDF)

  74. Park I.W, (2012). Digital herbarium archives as a spatially extensive, taxonomically discriminate phenological record; a comparison to MODIS satellite imagery. International Journal of Biometeorology 56, 1179–1182. (PDF)

  75. Peat H.J, Clarke A, Convey P, (2007). Diversity and biogeography of the Antarctic flora. Journal of Biogeography 34, 132–146. (PDF)

  76. Price K.J, Ayers T.J, (2008). Pollen morphology in Lysipomia (Campanulaceae: Lobelioideae) and interpretation of shape artifacts. Brittonia 60(3), 297– 302. (PDF)

  77. Primack D, Imbres C, Primack R.B, Miller-Rushing A.J, Tredici P.D, (2004). Herbarium Specimens Demonstrate Earlier Flowering Times in Response To Warming in Boston, American Journal of Botany 91(8), 1260–1264. (PDF)

  78. Puyravaud J-P, Davidar P, Pascal J-P, Ramesh B.R, (2003). Analysis of threatened endemic trees of the Western Ghats of India sheds new light on the Red Data Book of Indian Plants. Biodiversity and Conservation 12, 2091–2106. (PDF)

  79. Rhoads A.F, Thompson L, (1992). Integrating Herbarium Data into Geographic Information System; Requirements for spatial Analysis. Taxon 41(1), 43-49. (PDF)

  80. Rivers M.C, Bachman S.P, Meagher T.R, Lughadha E.N, Brummitt N.A, (2010). Subpopulations, locations and fragmentation: applying IUCN red list criteria to herbarium specimen data, Biodiversity and Conservation 19, 2071–2085. (PDF)

  81. Rivers, M. C., Taylor L., Brummitt N.A, Meagher T.R, Roberts D.L, Lughadha, E. N, (2011). How many herbarium specimens are needed to detect threatened species? Biological Conservation 144, 2541–2547.

  82. Robbirt K.M, Robert D.L, Hawkins J.A, (2006). Comparing IUCN and probabilistic assessments of threat: do IUCN red list criteria conflate rarity and threat?. Biodiversity and Conservation 15, 1903–1912. (PDF)

  83. Ronse A.C, Popper Z.A, Preston J.C, Watson M.F, (2010). Taxonomic revision of European Apium L. s.l.: Helosciadium W.D.J.Koch restored. Plant Systematics and Evolution 287, 1–17. (PDF)

  84. Rouhan G, Hanks J.G, Mcclelland D, Moran R.C, (2007). Preliminary phylogenetic analysis of the fern genus Lomariopsis (Lomariopsidaceae). Brittonia 59(2), 115-128. (PDF)

  85. Runge F, Choi Y-J, Thines M, (2011). Phylogenetic investigations in the genus Pseudoperonospora reveal overlooked species and cryptic diversity in the P. cubensis species cluster. European Journal of Plant Pathology 129, 135 – 146. (PDF)

  86. Schmidt-Lebuhn A.N, Knerr N.J, Kessler M, (2013). Non-geographic collecting biases in herbarium specimens of Australian daisies (Asteraceae). Biodiversity and Conservation 22, 905–919. (PDF)

  87. Šmarda P, (2008). DNA ploidy level variability of some fescues (Festucasubg. Festuca, Poaceae) from Central and Southern Europe measured in fresh plants and herbarium specimens, Biologia 63(3), 349—367. (PDF)

  88. Smith R.J, Hopper S.D, Shane M.W, (2011). Sand-binding roots in Haemodoraceae: global survey and morphology in a phylogenetic context. Plant Soil 348, 453 –470. (PDF)

  89. Spooner D.M, Lopez A.S, Huaman Z, Hijmans R.J, (1999). Wild Potato Collecting  Expedition  in  Southern  Peru (Departments  of Apurimac,  Arequipa,  Cusco,  Moquegua Puno,  Tacna)  in  1998:  Taxonomy  and  New  Genetic  Resources. American Journal of Potato Research 76, 103-119. (PDF)

  90. Srivastava G, Mehrotra R.C, (2013). Endemism due to climate change: Evidence from Poeciloneuron Bedd. (Clusiaceae) leaf fossil from Assam, India. Journal of Earth System Science 122(2), 283–288. (PDF)

  91. Szweykowski J, Buczkowska K, Odrzykoski I.J, (2005). Conocephalum salebrosum (Marchantiopsida, Conocephalaceae) – a new Holarctic liverwort species. Plant Systematics and Evolution 253, 133–158. (PDF)

  92. Taper M.L, Case T.J, (1987). Interactions  between  oak  tannins and  parasite  community  structure: Unexpected  benefits  of tannins to  cynipid  gall-wasps, Oecologia  (Berlin) 71, 254-261. (PDF)

  93. Turner I.M, (2009). On the identity of Guatteria costata Hook. f. & Thomson (Annonaceae). Kew Bulletin 64, 577 – 578. (PDF)

  94. Ungricht S, Rasplus J-Y, Kjellberg F, (2005). Extinction threat evaluation of endemic fig trees of New Caledonia: priority assessment for taxonomy and conservation with herbarium collections. Biodiversity and Conservation 14, 205–232. (PDF)

  95. Watanabe K, Yahara T, (1984). Studies  on  the  Asian  Eupatoria II Cytogeography  of  Eupatorium chinense subsp. sachalinense  var. oppositifolium, The  Botanical  Magazine,  Tokyo 97, 87-105. (PDF)

  96. Willis F, Moat J, Paton A, (2003). Defining a role for herbarium data in Red List assessments: a case study of Plectranthus from eastern and southern tropical Africa, Biodiversity and Conservation 12, 1537–1552. (PDF)

  97. Won H, (2009). Phylogenetic Position of Corchoropsis Siebold & Zucc. (Malvaceae s.l.) Inferred from Plastid DNA Sequences, Journal of Plant Biology 52, 411 –416. (PDF)

  98. Wu S-H, Wang H-H, (2005). Potential Asteraceae Invaders in Taiwan: Insights from the Flora and Herbarium Records of Casual and Naturalized Alien Species. Taiwania 50 (1), 62-70. (PDF)

  99. Zanoni T.A, (1997). The herbarium of Paul A. Fryxell (pf) and U.S. Department of Agriculture, College Station, Texas, integrated into The New York Botanical Garden Herbarium (NY). Brittonia 49(2), 197-203. (PDF)

  100. Zemmrich A, Schnittler M, Hartleib J, Busch M, Bobertz B, Zölitz R, (2013). FloraGREIF – An Internet-Based Data Repository for Biogeographical Research in Mongolia. Folia Geobot. (DOI 10.1007/s12224-012-9149-6) (http://link.springer.com/article/10.1007%2Fs12224-012-9149-6

  101. Zika P.F, (2013). A synopsis of the Juncus hesperius group (Juncaceae, Juncotypus) and their hybrids in western North America. Brittonia 65(2), 128–141. (PDF)

  102. Flaster T, (2004). Survey of medicinal plants in the main US herbaria. Ethnobotany Research & Application 2, 101-110. (PDF)

  103. Gillbank L, (2007). The University of Melbourne Herbarium, from McCoy to MELU A broken paper-trail. University of Melbourne Collections (1), 20- 28. (PDF)

  104. Simpson N, (2011). Colour and contemporary digital botanical illustration. Optics & Laser Technology 43, 330 –336. (PDF)

  105. Wester L, Yongvanit S, (2006). Naming consistency for forest plants in some rural communities of northeast Thailand. Ethnobotany Research & Applications 4, 203-212.

  106. Rao K.S, Sringeswara A.N, Kumar D, Pulla S, Sukumar R, (2012). A digital herbarium for the flora of Karnataka. Current Science 102 (9), 1268- 1271. (PDF)

  107. Tetali, P., Tetali, S. and Lale, M., (2000). Computer-based herbarium sheets and their uses in plant identification. In Proceedings of  National Seminar on Plant Biodiversity, Systematics, Conservation and Ethnobotany, Department of Botany, North Bengal University, 9–11 November 2000.

  108. Belhumeur P.N, Chen D, Feiner S, Jacobs D.W, Kress W.J, Ling H, Lopez I, Ramamoorthi R, Sheorey S, White S, Zhang L, Searching the World’s Herbaria: A System for Visual Identification of Plant Species. (http://www.cs.umd.edu/~dchen/papers/eccvdwjJuly24.pdf)

  109. Jasrai Y. T, Wala B.B, Singh H.S, Desai B.S, (2000). A computer-based complementary technique for plant Herbaria. Current Science 78(6), 677-678.

  110. Wijesingha D, Marikar F.M.M.T, (2011). Automatic Detection System for the Identification of Plants Using Herbarium Specimen Images. Tropical Agricultural Research 23 (1), 42 – 50. (PDF)

  111. Clark J.Y, Corney D.P.A, Tang H.L, (2012). Automated Plant Identification Using Artificial Neural Networks. To be presented at CIBCB2012. (http://www.computing.surrey.ac.uk/morphidas/papers/Clark_et_al_CIBCB2012_preprint.pdf)

  112. Tomović G, Mitrović V, Stevanović B, (2002). Methods of Field Studies in Botany. Genetika 34(2-3), 85-95. (PDF)

  113. Erol O, Küçüker O, Şik L, (2009). Application of a New Illustration Technique in Plant Systematics: Composite Images of Two Autumn Flowering Crocus L. (Iridaceae) Taxa from Series Biflori in Turkey. UFS Journal of Biology 68(2), 127-133. (PDF)

  114. Rahaman A, Alanamu A, Asaju, Bolaji L, Arigbede, Olasupo M, Oladele, Ayotunde F, (2012). An improved version of Leasys: an intelligent plant identification system. Journal of Agricultural Informatics 3(1), 27-35. (PDF)

  115. James S. Cope, David Corney, Jonathan Y. Clark, Paolo Remagnino, Paul Wilkin, Plant species identification using digital morphometrics: A review. Expert Systems with Applications 39 (2012) 7562–7573. (PDF)

  116. Kress W.J, (2004). Paper floras: how long will they last? A review of flowering plants of the neotropics. American Journal of Botany 91(12),  2124–2127. (PDF)

  117. Shishodia J, Saxena R.S, (2012). Digital herbarium database of some rainy season weeds of Khadar area of Hastinapur District, Meerut (U.P.), India. International Multidisciplinary Research Journal 2(6), 34-36. (PDF)

  118. DeVeer J.M, Stout A, Rioux M, The Mblwhoi Library Digital Herbarium, (https://darchive.mblwhoilibrary.org/bitstream/handle/1912/2001/proc03011.pdf?sequence=1)

  119. Schmidt, L. (2007). Digitization of Herbarium Specimens, a Collaborative Process. Conference Proceedings of the Association of College & Research Libraries (ACRL) 13th National Conference, 64-69. (PDF)