BIBLIOGRAPHY OF STOMATA: MONOCOTS

Abdulrahaman A. A., Egbedo F. O., Oladele F. A. (2009) – Stomatal complex types, stomatal density, and the stomatal index in some species of Dioscorea – Arch. Biol. Sci., Belgrade 61(4): 847-851 –http://www.doiserbia.nb.rs/img/doi/0354-4664/2009/0354-46640904847A.pdf – (On our blog : https://plantstomata.wordpress.com/2015/10/24/stomatal-features-in-dioscorea/).

AbdulRahaman A. A., Oladele F. A. (2009) – Stomatal features and humidification potentials of Borassus aethiopum, Oreodoxa regia and Cocos nucifera – African Journal of Plant Science 3(4): 59-63 – https://www.academia.edu/7299769/Stomatal_features_and_humidification – (On our blog : https://plantstomata.wordpress.com/2018/08/01/stomata-in-borassus-aethiopum-oreodoxa-regia-and-cocos-nucifera/ )

Abid R., Sharmeen S., Perveen A. (2007). – Stomatal types of monocots within the Flora of Karachi, Pakistan – Pak. J. Bot. 39(1): 15-21 – http://www.pakbs.org/pjbot/PDFs/39(1)/PJB39(1)015.pdf – (On our blog : https://plantstomata.wordpress.com/2016/09/01/stomatal-types-of-monocots-in-pakistan/)

Abraham C. M., Chacko A. S., Rajendran A., Johnson L. A., Kumar S. (2016) – Stomatal studies in epiphytic orchids – Asia Pacific Journal of Research 1 (XLI): 102-105 -ISSN (Print) : 2320-5504 ISSN (Online) : 2347-4793 – http://apjor.com/downloads/2807201612.pdf – (On our blog : https://plantstomata.wordpress.com/2018/06/25/stomatal-types-and-density-in-orchids/ )

Abubakar B.Y., Mustapha O.T.,  Iortsuun D.N.  (2011) –  Variability of epidermal structure and stomatal ontogeny in some species of Asparagaceae from Falgore Game Reserve – New Clues Sci. 1: 80-83 –

Ahmad F., Hameed M., Ashraf M., Ahmad M., Khan A., Nawaz T., Ahmad K. S., Zafar M. (2012) – Role of leaf epidermis in identification and differentiation of grasses in tribe Chlorideae (Poaceae) from Pakistan – Journal of Medicinal Plants Research 6(10: 1955-1960 – Doi: 10.5897/JMPR11.1654https://www.researchgate.net/publication/299397272_Role_of_leaf_epidermis_in_identification_and_differentiation_of_grasses_in_tribe_Chlorideae_Poaceae_from_Pakistan – (On our blog : https://plantstomata.wordpress.com/2019/07/22/stomata-in-identification-and-differentiation-of-grasses/ )

Ahmad F., Khan M. A., Ahmad M., Arshad M., Zafar M., Khan A., Raja N. I., ur Rehman Z. (2011) – Foliar epidermal anatomy as an aid to the identification of grasses in tribe Aveneae (subfamily Pooideae, Poaceae) from salt range of Pakistan – Journal of Medicinal Plants Research 5(1): 81-87 – ISSN 1996-0875 – https://www.researchgate.net/profile/Zia_Ur_Rehman_Mashwani/publication/261633937_Foliar_epidermal_anatomy_as_an_aid_to_the_identification_of_grasses_in_tribe_Aveneae_subfamily_Pooideae_Poaceae_from_salt_range_of_Pakistan/links/0deec534d8c35490bc000000/Foliar-epidermal-anatomy-as-an-aid-to-the-identification-of-grasses-in-tribe-Aveneae-subfamily-Pooideae-Poaceae-from-salt-range-of-Pakistan.pdf – (On our blog : https://plantstomata.wordpress.com/2019/07/23/stomata-and-foliar-epidermal-anatomy-as-an-aid-to-the-identification-of-grasses/ )

Aina O. D., Atumeyi S. (2011) – Foliar epidermal anatomy of four species of Dioscorea  – Advances in Applied Science Research 2(4): 21-24 – ISSN: 0976-8610 CODEN (USA): AASRFC – http://connection.ebscohost.com/c/articles/66170523/foliar-epidermal-anatomy-four-species-dioscorea – (On our blog : https://plantstomata.wordpress.com/2016/08/17/stomata-in-dioscorea/)

Akkad H. A.-H. (1968) – Variations in number of leaf stomata and number of leaf vascular bundles in bermuda-grass, Cynodon dactylon (L.) Pers. – Ms Thesis University of Arizona – AZU_TD_BOX93_E9791_1968_297.pdf

Alfonso Wilma, F. (1984) – Stomatal density and length as genetic marker of coconut. – B.Sc. Thesis, UPLB, Philippine –

Alzaini V. H. (2022) – Cara Membersihkan Stomata Daun Aglonema Agar Tumbuh Sehat dan Subur – https://jember.jatimnetwork.com/gaya-hidup/pr-514190536/cara-membersihkan-stomata-daun-aglonema-agar-tumbuh-sehat-dan-subur – (On our blog : https://plantstomata.wordpress.com/2022/08/22/stomata-in-aglonema-araceae/ )

Amaral M. M., Mello-Silva R. (2008) – Ontogenesis of stomata in Velloziaceae: paracytic versus tetracytic? – Revta bras. Bot. 31: 529-536 – http://dx.doi.org/10.1590/S0100-84042008000300016http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-84042008000300016 – Vellozia (3 spp.), Barbacenia. LM – stomata, epidermis, leaf ts. – (On our blog : https://plantstomata.wordpress.com/2016/09/01/braquiparacytic-questioning-tetracytic-and-paracytic-in-velloziaceae/)

Andelic M., Janjatovic V., Borojevic S. (1970) – Number and size of stomata in different wheat genotypes – Savremena Poljo privreda (Novl Sad) 18: 803-807 –

Angelov I., Matvejeva J., Stankovic L., Kratovalieva S. (1995) – Morphology and distribution of stomata at some hybrids of maize (Zea mays L.) – Macedonian Agricultural Review 42(2): 87-93 –

Antunes de Almeido Filho H. (2018) – Purple monocot plant – Harvard Dataverse – (On our blog : https://plantstomata.wordpress.com/2018/03/30/purple-monocot-with-green-stomata/ )

Aono A., Nagai J. S., Dickel G. da S. M., Marinho R. C., de Oliveira P. E. A. M., Faria F. A. (2019) – A Stomata Classification and Detection System in Microscope Images of Maize Cultivars – doi: https://doi.org/10.1101/538165https://www.biorxiv.org/content/10.1101/538165v1 – (On our blog : https://plantstomata.wordpress.com/2019/02/13/stomata-classification/ )

Ariyanayagam D. V., Stebbins G. L. (1962) – Developmental studies of cell differentiation in the epidermis of Monocotyledons. III. Interaction of environmental and genetic factors on stomatal differentiation in three genotypes of barley – Developmental Biology 4: 117-133 – (On our blog : https://plantstomata.wordpress.com/2017/04/19/interaction-of-environmental-and-genetic-factors-on-stomatal-differentiation/)

Arrillaga-Maffei B. R. (1966) – Anomalous stomata of Stipa neesiana (Gramineae) – Canad. J. Bot. 44: 845-846 – https://doi.org/10.1139/b66-098 – http://www.nrcresearchpress.com/doi/10.1139/b66-098 – (On our blog : https://plantstomata.wordpress.com/2017/09/13/anomalous-stomata-in-stipa-poaceae/)

Artschwager E. (1930) – A comparative study of the stem epidermis of certain sugarcane varieties. – J. Agric. Res. 41: 853-865 – https://naldc.nal.usda.gov/naldc/download.xhtml?id=IND43967783&content=PDF – (On our blog : https://plantstomata.wordpress.com/2016/11/22/stomata-in-sugar-cane-saccharum-monocots/)

Aryavand, A., Ehdaie,B., Tran,B., Waines,J .G. (2003) –  Stomatal frequency and size differentiate ploidy levels in Aegilops neglecta – Genet. Resour. Crop Evol. 50: 175-182 – http://link.springer.com/article/10.1023%2FA%3A1022941532372 – (On our blog : https://plantstomata.wordpress.com/2015/03/24/stomata-in-aegilops-monocots/)

Awada T., Moser L. E., Schacht W. H., Reece P. E. (2002) – Stomatal variability of native warm-season grasses from the Nebraska Sandhills – Can. J. Plant Sci. 82: 349–355 – https://cdnsciencepub.com/doi/pdf/10.4141/P01-031 – (On our blog : https://plantstomata.wordpress.com/2022/02/06/stomatal-variability-of-native-warm-season-grasses-2/ )

Awasthi D. K., Kumar V., Rawat R. (1984) – Stomatal studies in Amaryllidaceae with special reference to stomatal abnormalities – Proceedings of the Indian Academy of Sciences – Section A Part 3 Mathematical sciences 93(6): 629-633 – doi:10.1007/BF03053060 – http://link.springer.com/article/10.1007/BF03053060 – (On our blog : https://plantstomata.wordpress.com/2016/11/03/stomata-in-amaryllidaceae/)

Babu, R. H., Savithramma, N. (2014) – Studies on stomata of some selected grass species of Poaceae and Cyperaceae – World Journal of Pharmacy and Pharmaceutical Sciences 3(7): 1268-1279 –http://isindexing.com/isi/papers/1416559462.pdfwww.wjpps.com/download/article/1404210729.pdf – (On our blog : https://plantstomata.wordpress.com/2016/12/19/stomata-in-poaceae-and-cyperaceae-2/).

Babu R. H., Savithramma N. (2014) – Studies on stomata of some selected grass species of Poaceae and Cyperaceae – World Journ. Pharm. & Pharm. Science 3(7): 1268-1279 – www.wjpps.com/download/article/1404210729.pdf– (On our blog : https://plantstomata.wordpress.com/2016/12/19/stomata-in-poaceae-and-cyperaceae-2/)

Bahadur B. (1976) – On the occurrence of stomata on the inner ovary wall of Belmcanda chinensis DC – Curr. Sci. 45(2): 65-67 – https://www.researchgate.net/publication/311545968_On_the_occurence_of_stomata_on_the_inner_ovary_wall_of_Belmcanda_chinnesis_DC – (On our blog : https://plantstomata.wordpress.com/2016/12/12/stomata-on-the-ovary-of-belamcanda-chinensis-iridaceae/)

Bahadur B., Ramaswamy N., Narsaiah G., Farooqui S. M. (1984) – Epidermal features in four species of Zephyranthes Herb. (Amaryllidaceae) – Indian bot. Reptr. 3(2): 161-163 – https://www.researchgate.net/publication/308532381_Epidermal_features_in_four_species_of_ZephyranthesAmaryllidaceae – (On our blog : https://plantstomata.wordpress.com/2016/12/04/stomata-in-zephyranthes-amaryllidaceae/)

Baranova M. A. (1975) – Stomatographic investigations in the family Flagellariaceae. – Bot Zhurn. 60: 1690–1697 (In Russian) – 

Baranova M. A. (1990) – [Principles of comparative stomatographic studies in flowering plants.] Komarovskie Chteniya 38: 68 pp. Nauka: Leningrad. [Russ. only] –The Botanical Review 58(1): 49-99 · January 1992 – DOI: 10.1007/BF02858543 – https://link.springer.com/article/10.1007/BF02858543 – (On our blog : https://plantstomata.wordpress.com/2017/09/13/comparative-stomatographic-studies-in-flowering-plants/) – Definitions of mature and developmental stomatal types; general notes on Magnoliopsida and Liliopsida

Bastos E. de O., Perazzolo M., Baptista J. M. R. (1992) – Variation in the number of stomata and microhairs of Paspalum vaginatum Sw: en relation to abiotic conditions in a breakwater in the Lagoa dos Patos estuary, RS-Brazil – (Variação do número de estômatos e micropêlos em Paspalum vaginatum Sw: em relação às condições abióticas numa marisma do estuário da Lagoa dos Patos, RS-Brasil) – Acta Bot. Bras. 6 (2) – https://doi.org/10.1590/S0102-33061992000200007 – https://www.scielo.br/j/abb/a/tj9p65jG9cGsy73LHq5sr5N/?lang=pt – (On our blog : https://plantstomata.wordpress.com/2022/03/09/the-number-of-stomata-and-microhairs-of-paspalum-vaginatum-in-relation-to-abiotic-conditions-in-a-breakwater/ )

Batagin-Piotto K. D., Vieira de Almeida C., Piotto F. A., de Almeida M. (2012) – Anatomical analysis of peach palm (Bactris gasipaes) leaves cultivated in vitro, ex vitro and in vivo – Braz. J. Bot. 35(1) – http://dx.doi.org/10.1590/S0100-84042012000100008 – (On our blog : https://plantstomata.wordpress.com/2015/10/19/stomata-in-bactris/)

Beyer A. F. (1929) Über Tropfenbildung in den Schließzellen der Spaltöffnungen von Tradescantia zebrina. Dissertation/ Jena – Bot. Archiv 26: 224-256 –

Bibi F., Khan M. A., Ahmad M., Zafar M. (2007) – Leaf epidermal anatomy of some grasses – Pak. J. Sci. 59(1-2): 47-51 –

Blunden G., Yi Y., Jewers K. ( 1973) – The comparative leaf anatomy of Agave, Bes horneria, Doryanthes and Furcraea (Agavaceae, Agaveae) – Bot. J. Linn. Soc. 66: 157-179 – (On our blog : https://plantstomata.wordpress.com/2017/04/22/stomata-in-agavaceae/)

Boetsch J., Chin J., Croxdale J. (1995) – Arrest of stomatal initials in Tradescantia is linked to the proximity of neighbouring stomata and results in the arrested initials acquiring properties of epidermal cells – Dev. Biol. 168: 28–38 – DOI:10.1006/dbio.1995.1058 – https://www.ncbi.nlm.nih.gov/pubmed/7883076 – (On our blog : https://plantstomata.wordpress.com/2017/02/17/arrested-stomatal-initials-and-stomatal-neighbors/)

Boghdan K. S., Barkley F. A. (1972) – Stomatal patterns in the genus Begonia – Phytologia 23(4): 327-333 – (On our blog : https://plantstomata.wordpress.com/2017/05/01/stomata-in-begonia-monocots/)

Bogner J. (2011) – Acoraceae – Flora Malesiana, Series I 20: 1–13 – http://www.repository.naturalis.nl/document/614228 – (On our blog : https://plantstomata.wordpress.com/2018/03/01/stomata-in-acorus-monocots/ )

Borges O. L. (1971) – Tamano y densidad de estomas en clones cultivados y especies de Musa – Agronomia Tropical 21: 139-143 –

Borrill M.(1961) –  Epidermal characteristics in the diploid subspecies of Dactylis glomerata L. – J. Linn. Soc. (Bot.). 56: 453-458 – DOI: 10.1111/j.1095-8339.1961.tb02539.x http://onlinelibrary.wiley.com/doi/10.1111/j.1095-8339.1961.tb02539.x/abstract – (On our blog : https://wordpress.com/post/plantstomata.wordpress.com/26952-)

Botha D. J., Van der Schijff H. P., Van Tonder E. M. A. (1972) – The position, structure and ontogeny of the stomata in the stems of Elegia vaginulata Mast. – M. Sc-thesis University of Pretoria – 193-199 – (On our blog : https://plantstomata.wordpress.com/2017/05/01/stomata-in-elegia-restionaceae-in-s-african/)

Brandham P. E., Cutler D. F. (1978) – Influence of chromosome variations on the organization of the leaf epidermis in hybrid Aloe (Liliaceae) – Bot. J Linnean Soc. 77: 1-16 –

Brat L. (1952) – Epidermis-Zellgrösse und Stomata-Zahl vergrünter Gladiolus-Blüten – Phyton 4: 215-220 – http://www.zobodat.at/pdf/PHY_4_1_3_0215-0220.pdf – (On our blog : https://plantstomata.wordpress.com/2017/02/17/stomata-in-green-flowers-of-gladiolus/)

Bretland Farmer J. (1889) – The stomata in the fruit of Iris pseudacorus Linn. – Ann. Bot. (Lond.). (4): 174-176 – http://aob.oxfordjournals.org/content/os-4/1/174.extract# – (On our blog : https://plantstomata.wordpress.com/2016/11/22/stomata-in-fruit-of-iris/)

Brito de Assis Prado C. H., Casali C. A. (2013) – Stomata on epidermis of dicots and monocots – Video – https://youtu.be/ofp3GE5-S20 – (On our blog : https://plantstomata.wordpress.com/2019/02/06/stomata-on-epidermis-of-dicots-and-monocots/ )

Brown W. V., Johnson C. Sr (1962) – The fine structure of the grass guard cell – Am. j. Bot. 49: 110-115 – https://www.jstor.org/stable/2439025?seq=1#page_scan_tab_contents – (On our blog : https://plantstomata.wordpress.com/2016/11/04/stomata-in-grasses-poaceae/)

Bunning E., Biegert F. (1953) – Die Bildung der Spaltöffnungsinitialen bei Allium cepa. – Zeitschr. f. Bot.. 41:17–39 – (On our blog : https://plantstomata.wordpress.com/2017/05/28/stoma-initials-in-allium-cepa/)

Busby C. H., Gunning B. E. S. (1980) – Observations on pre-prophase bands of microtubules in uniseriate hairs, stomatal complexes of sugar cane, and Cyperus root meristems – Eur J Cell Biol 21: 214–223 – PMID: 7398662 – https://pubmed.ncbi.nlm.nih.gov/7398662/ – (On our blog : https://plantstomata.wordpress.com/2021/06/04/microtubules-in-uniseriate-hairs-and-stomatal-complexes-of-sugar-cane/ )

Cai L. B.,Wang S. J. (1994) – Studies on the evolutionary trends and mechanism of the constituent cells of the leaf epidermis in Poaceae – Acta Biologia Plateau Sinica 12: 13-27 –

Campbell D. H. (1881) – On the development of the stomata of Tradescantia and indian corn – Am. Nat. 15: 761-766 – (http://www.jstor.org/stable/2448863?seq=1#page_scan_tab_contents) – (On our blog : https://plantstomata.wordpress.com/2017/06/19/stomata-of-tradescantia-and-indian-corn/)

Carroll J. C., Welton F. A. (1937) – Daily periodicity of stomata in certain species of turf grasses – Bot. Gaz. 99: 420-423 – (On our blog :https://plantstomata.wordpress.com/2017/06/18/stomata-of-5-turf-grasses/)

Chaffey N. J. (1982) – Presence of stomata-like structures in the ligule of Agrostis gigantea Roth – Ann. Bot. 50: 717-720 – (On our blog : https://plantstomata.wordpress.com/2017/06/09/stomata-like-structures-in-the-ligule-of-agrostis/)

Chaffey N. J. (1983) – Epidermal structure in the ligule of rice (Oryza sativa L.) – Ann. Bot. 52: 13-21 – (On our blog : https://plantstomata.wordpress.com/2017/06/18/stomata-in-the-ligule-of-rice/)

Charlton W. A. (1988) – Stomatal Pattern in Four Species of Monocotyledons – Ann Bot. 61 (5): 611-621 – http://aob.oxfordjournals.org/content/61/5/611 – (On our blog : https://plantstomata.wordpress.com/2016/06/26/stomata-in-4-monocots/)

Charlton W. A. (1990) – Differentiation in leaf epidermis of Chlorophytum comosum Baker – Annals of Botany 66567–578 – DOI 10.1093/oxfordjournals.aob.a088066 – https://www.jstor.org/stable/42758356 – (On our blog : https://wordpress.com/post/plantstomata.wordpress.com/66621 )

Chatterjee J., Thakur V., Nepomuceno R., Coe R. A., Dionora J., Elmido-Mabilangan A., Llave A. D., Delos Reyes A. m., Monroy A. N., Canicosa I., Bandyopadhyay, Jena K. K., Brar D. S., Quick W. P. (2020)Natural Diversity in Stomatal Features of Cultivated and Wild Oryza Species – Rice 13: 58 – https://doi.org/10.1186/s12284-020-00417-0https://thericejournal.springeropen.com/articles/10.1186/s12284-020-00417-0#citeas – (On our blog : https://plantstomata.wordpress.com/2022/03/22/oryza-barthii-can-be-used-in-traditional-breeding-programs-in-enhancing-the-stomatal-size-of-elite-rice-cultivars/ )

Chaudhary M. I., Mumtaz A. S., Khan M. A. (2001) – Leaf Epidermal Anatomy of Medicinal Grasses of Islamabad, Attock and Mirpur (Azad Kashmir) – Pakistan Journal of Biological Sciences 4(12): 1466-1469 – DOI: 10.3923/pjbs.2001.1466.1469 – https://www.researchgate.net/publication/26566560_Leaf_Epidermal_Anatomy_of_Medicinal_Grasses_of_Islamabad_Attock_and_Mirpur_Azad_Kashmir – (On our blog : https://plantstomata.wordpress.com/2018/08/02/stomata-in-medicinal-grasses/ )

Chel’cova L. P. (1957) – Les données cytologiques sur le développement des stomates de la feuille de blé (en russe) – Dokl. Akad. Nauk SSSR 113: 1372-1375 –

Chen Z.-H., Chen G., Dai F., Wang Y., Hills A., Ruan Y.-L., Zhang G., Franks P. J., Nevo E., Blatt M. R. (2017) – Molecular evolution of grass stomata- Trends Plant Sci 22: 124-139 – PMID:27776931 – https://doi.org/10.1016/j.tplants.2016.09.005https://www.tandfonline.com/doi/full/10.1080/15592324.2017.1339858 – (On our blog : https://plantstomata.wordpress.com/2020/10/19/the-evolutionary-development-of-grass-stomata-appears-to-have-been-a-gradual-progression/ )

Chernykh N. A. (1972) – Frequency and distribution of stomata in Convallaria with respect to the taxonomy of the genus – Botanicheskii Zhurnal (stsburg). 57(8): 971-977 – https://eurekamag.com/research/026/656/026656501.php

Chin J., Wan Y., Smith J., Croxdale J. (1995) – Linear aggregations of stomata and epidermal cells in Tradescantia leaves evidence for their group patterning as a function of the cell cycle – Dev. Biol. 168: 39–46 – DOI:10.1006/dbio.1995.1059 – https://www.ncbi.nlm.nih.gov/pubmed/7883077 – (On our blog : https://plantstomata.wordpress.com/2017/02/17/development-of-linear-groups-of-stomata/)

Cho S.-O., Wick S. M. (1989) – Microtubule orientation during stomatal differentiation in grasses – J. Cell Sci. 92: 581-594 – http://jcs.biologists.org/content/92/4/581 – (On our blog : https://plantstomata.wordpress.com/2016/11/04/microtubules-during-formation-of-the-stomatal-complex-in-grasses/)

Choi H. J., Jang C. G., Ko S. C., Oh B. U. (2004) – Leaf epidermal structure of the Allium L. and its taxonomic significance – Korean Journal of Plant Taxonomy 34: 97-118 – DOI: 10.11110/kjpt.2004.34.2.097https://www.researchgate.net/publication/323802335_Leaf_epidermal_structure_of_the_Allium_L_and_its_taxonomic_significance – (On our blog : https://plantstomata.wordpress.com/2019/03/09/stomata-in-allium/ )

Chu S. P., Stone B. C. (1973) – Morphological studies in Pandanaceae V. – A further survey of foliar anatomy in the genus Pandanus – Journ. Jap. Bot. 48 (2): 23-32 – (On our blog : https://plantstomata.wordpress.com/2017/06/19/stomata-in-pandanus/)

Cleary A. L., Hardham A. R. (1989) – Microtubule orientation during development of stomatal complexes in Lolium rigidum – Protoplasma 49: 76-81 – DOI: 10.1007/BF01322979 – http://link.springer.com/article/10.1007/BF01322979 – (On our blog : https://plantstomata.wordpress.com/2016/11/06/microtubules-in-stomatal-complexes-in-lolium-poaceae/)

Croxdale J. (1998) –  Stomatal patterning in monocotyledons: Tradescantia as a model system – Journal of Experimental Botany 49: 279–292 – (On our blog : https://plantstomata.wordpress.com/2015/09/20/data-on-stomatal-patterning-and-current-patterning-theories/).

Croxdale J., Smith J., Yandell B., Johnson J. B. (1992) – Stomatal patterning in Tradescantia: an evaluation of the cell lineage theory – Dev. Biol. 149: 158–167 – http://www.stat.wisc.edu/~yandell/doc/1992/25.DevelBio.pdf – (On our blog : https://plantstomata.wordpress.com/2017/09/13/evaluation-of-the-cell-lineage-theory-and-stomatal-patterning/)

Cutler D. F. (1969) – Cuticular markings and other epidermal features in Aloe leaves – Notes Jodrell Lab. Kew 6: 21-27 –

Cutler D. F., Brandham D. F. (1977) – Epidermal evidence for the genetic control of leaf surface characters in hybrid Aloïneae (Liliaceae) – Kew Bulletin 32(1): 23-32 – (On our blog : https://plantstomata.wordpress.com/2017/06/09/genetic-control-of-leaf-surface-characters/)

Cutler D. F., Hartmann H. (1979) – Scanning electron microscope studies of the leaf epidermis in some succulents – Akad. Wiss. & Liter. Mainz – Tropische und Subtropische Pflanzenwelt 28 (1979): 8-55 – (On our blog : https://plantstomata.wordpress.com/2017/06/08/stomata-in-haworthia-and-aloe-liliaceae/)

Dalla Vechia F., El Asmar T., Calamassi R., Rascio N., Vazzana C. (1998) – Morphological and ultrastructural aspects of dehydration and rehydration in leaves of Sporobolus stapfianus – Plant Growth Regulation 24: 219-228 – DOI: 10.1023/A:1005853527769https://www.researchgate.net/publication/227144797_Morphological_and_ultrastructural_aspects_of_dehydration_and_rehydration_in_leaves_of_Sporobolus_stapfianus – (On our blog : https://plantstomata.wordpress.com/2019/01/07/stomata-and-dehydration-and-rehydration-in-grass-leaves/ )

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