Evaluation and breeding of tedera for Mediterranean climates in southern Australia
D. Real A B C D L , C. M. Oldham E , M. N. Nelson C F , J. Croser D , M. Castello D , A. Verbyla G H , A. Pradhan C F , A. Van Burgel E , P. Méndez I , E. Correal J , N. L. Teakle C K , C. K. Revell A B D and M. A. Ewing A BA Department of Agriculture and Food Western Australia, 3 Baron-Hay Court, South Perth, WA 6151, Australia.
B Future Farm Industries Cooperative Research Centre, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
C School of Plant Biology, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
D Centre for Legumes in Mediterranean Agriculture, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
E Department of Agriculture and Food Western Australia, 444 Albany Highway, Albany, WA 6330, Australia.
F The UWA Institute of Agriculture, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
G School of Agriculture, Food and Wine, The University of Adelaide, Private Mail Bag 1, Glen Osmond, SA 5064, Australia.
H Computational Informatics, CSIRO, PO Box 780, Atherton, Qld 4883, Australia.
I Instituto Canario de Investigaciones Agrarias, Apartado 60, 38200 La Laguna, Tenerife, Spain.
J Instituto Murciano de Investigación y Desarrollo Agrario y Alimentario, Estación Sericícola, C/Mayor s/n, La Alberca, 30150 Murcia, Spain.
K Graduate Research School, Edith Cowan University, 270 Joondalup Drive, Joondalup, WA 6027, Australia.
L Corresponding author. Email: daniel.real@agric.wa.gov.au
Crop and Pasture Science 65(11) 1114-1131 https://doi.org/10.1071/CP13313
Submitted: 5 September 2013 Accepted: 4 November 2013 Published: 27 February 2014
Abstract
Tedera (Bituminaria bituminosa C.H. Stirton var. albomarginata and var. crassiuscula) has been identified as one of the most productive and drought-tolerant species of herbaceous perennial legumes based on 6 years of field evaluation in Western Australia in areas with Mediterranean climate and annual rainfall ranging from 200 to 600 mm. Importantly, tedera demonstrated broad adaptation to diverse soils, and some accessions have shown moderate levels of tolerance to waterlogging and salinity. Tedera exhibits minimal leaf shedding during summer and autumn. Economic modelling strongly suggests that giving livestock access to green tedera in summer and autumn will dramatically increase farm profit by reducing supplementary feeding. The breeding program (2006–12) evaluated the available genetic diversity of tedera for its field performance in seven nurseries with 6498 spaced plants in total covering a wide variation in rainfall, soils and seasons. Best overall plants were selected using a multivariate selection index generated with best linear unbiased predictors (BLUPs) of dry matter cuts and leaf retention traits. The breeding program also evaluated tedera for grazing tolerance, grazing preference by livestock, waterlogging tolerance, seed production, cold tolerance, disease susceptibility and presence of secondary compounds. Tedera is a diploid, self-pollinated species. Therefore, 28 elite parents were hand-crossed in several combinations to combine outstanding attributes of parents; F1 hybrids were confirmed with the aid of highly polymorphic, simple sequence repeat markers. The F1s were progressed to F4s by single-seed descent breeding. Elite parent plants were selfed for two generations to be progressed in the breeding program without hybridisation. Over time, selections from the crossing and selfing program will deliver cultivars of three ideotypes: (i) drought-tolerant, (ii) cold- and drought-tolerant, (iii) waterlogging- and drought-tolerant.
Additional keywords: breeding methods, drought tolerance, forage legumes, mixed models.
References
Aryamanesh N, Al-Subhi AM, Snowball R, Yan G, Siddique KHM (2011) First report of Bituminaria witches’-broom in Australia caused by a 16SrII phytoplasma. Plant Disease 95, 226| First report of Bituminaria witches’-broom in Australia caused by a 16SrII phytoplasma.Crossref | GoogleScholarGoogle Scholar |
Beard C (2009) Germination ecology of Bituminaria bituminosa var. albomarginata and its suitability to the Mediterranean-type climate of Western Australia. Honours Thesis, Curtin University, Perth, W. Aust.
Butler D, Cullis BR, Gilmour AR, Gogel BJ (2009) ‘ASREML-R, reference manual.’ Version 3. (Queensland Department of Primary Industries and Fisheries: Brisbane, Qld)
Castello M, Croser JS, Lulsdorf MM, Ramankutty P, Pradhan A, Nelson MN, Real D (2013) Breaking primary dormancy in seeds of the perennial pasture legume tedera (Bituminaria bituminosa C.H. Stirt. vars. albomarginata and crassiuscula). Grass and Forage Science in press.
Correal, E, Moñino, I, Méndez, P, Ríos, S (2003) Valoración agronómica de siete poblaciones de Bituminaria bituminosa: efecto de la sequía estival y siega sobre su persistencia y producción de hoja. In ‘Pastos, desarrollo y conservación’. pp. 34–40. (Consejería de Agricultura y Pesca)
del Rio JA, Ortuño A, Pérez I, Bennett RG, Real D, Correal E (2010) Furanocoumarin content in Bituminaria bituminosa varieties and Cullen species. In ‘Options Méditerranéennes. Alicante, Spain’. Vol. 92. (Eds C Porqueddu, S Ríos Ruiz) pp. 67–70. (CIHEAM: Paris)
Dolezel J, Bartos J, Voglmayr H, Greilhuber J (2003) Nuclear DNA content and genome size of trout and human. Cytometry 51, 127–128.
Finlayson JD, Real D, Nordblom T, Revell C, Ewing MA, Kingwell R (2012) Farm level assessments of a novel drought tolerant forage: Tedera (Bituminaria bituminosa C.H. Stirt var. albomarginata). Agricultural Systems 112, 38–47.
| Farm level assessments of a novel drought tolerant forage: Tedera (Bituminaria bituminosa C.H. Stirt var. albomarginata).Crossref | GoogleScholarGoogle Scholar |
Foster K, Ryan MH, Real D, Ramankutty P, Lambers H (2012) Drought resistance at the seedling stage in the promising fodder plant tedera (Bituminaria bituminosa var. albomarginata). Crop and Pasture Science 63, 1034–1042.
| Drought resistance at the seedling stage in the promising fodder plant tedera (Bituminaria bituminosa var. albomarginata).Crossref | GoogleScholarGoogle Scholar |
Foster K, Ryan MH, Real D, Ramankutty P, Lambers H (2013) Seasonal and diurnal variation in the stomatal conductance and paraheliotropism of tedera (Bituminaria bituminosa var. albomarginata) in the field. Functional Plant Biology 40, 719–729.
| Seasonal and diurnal variation in the stomatal conductance and paraheliotropism of tedera (Bituminaria bituminosa var. albomarginata) in the field.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhtFSrtrvO&md5=f2cee8988ea75eff7791884185ba9e70CAS |
Ghaffari M, Durmic Z, Real D, Vercoe P, Smith G, Oldham CM (2014) Furanocoumarins in tedera do not affect ruminal fermentation in continuous culture. Animal Production Science in press.
Gherardi S, Black J, Colebrook W (1991) Effect of palatability on voluntary feed intake by sheep. II. The effect of altering the palatability of a wheaten hay on long-term intake and preference. Australian Journal of Agricultural Research 42, 585–589.
| Effect of palatability on voluntary feed intake by sheep. II. The effect of altering the palatability of a wheaten hay on long-term intake and preference.Crossref | GoogleScholarGoogle Scholar |
Gilmour AR, Cullis BR, Verbyla AP (1997) Accounting for natural and extraneous variation in the analysis of field experiments. Journal of Agricultural, Biological & Environmental Statistics 2, 269–293.
| Accounting for natural and extraneous variation in the analysis of field experiments.Crossref | GoogleScholarGoogle Scholar |
Greenhalgh JFD, Reid GW (1971) Relative palatability to sheep of straw, hay and dried grass. The British Journal of Nutrition 26, 107–116.
| Relative palatability to sheep of straw, hay and dried grass.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaE3M3jtFOisA%3D%3D&md5=d89e2b152bc7ad322f56f446bb14082dCAS |
Innocenti G, Piovan A, Filippini R, Caniato R, Cappelletti EM (1997) Quantitative recovery of furanocoumarins from Psoralea bituminosa. Phytochemical Analysis 8, 84–86.
| Quantitative recovery of furanocoumarins from Psoralea bituminosa.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK2sXhvFygurc%3D&md5=ce84d0d175b4b1b7a6ddd1d697ae8e5cCAS |
Jackson M, Armstrong W (1999) Formation of aerenchyma and the processes of plant ventilation in relation to soil flooding and submergence. Plant Biology 1, 274–287.
| Formation of aerenchyma and the processes of plant ventilation in relation to soil flooding and submergence.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK1MXjsVKjsbk%3D&md5=98212ab1c245e1b36fafe67a8f3ba8abCAS |
Jones RAC, Real D, Vincent SJ, Gajda BE, Coutts BA (2012) First report of Alfalfa mosaic virus infecting tedera (Bituminaria bituminosa (L.) C.H. Stirton vars. albomarginata and crassiuscula) in Australia. Plant Disease 96, 1384
| First report of Alfalfa mosaic virus infecting tedera (Bituminaria bituminosa (L.) C.H. Stirton vars. albomarginata and crassiuscula) in Australia.Crossref | GoogleScholarGoogle Scholar |
Juan A, Monino I, Correal E, Méndez P, Crespo MB (2004) Comparación de las tasas de fructificación de Bituminaria bituminosa (Leguminosae) bajo condiciones de cultivo en canarias y la península Ibérica. In ‘Pastos y ganadería extensiva’. (Eds BG Criado, AG Cuidad, BRVd Aldana, I Zabalgogeazcoa) pp. 111–115. (Gráficas Cervantes, S.A.: Salamanca, Spain)
Li YP, Wright DG, Lanoiselet V, Wang CP, Eyres N, Real D, You MP, Barbetti MJ (2012) First report of Phoma herbarum on tedera (Bituminaria bituminosa var. albomarginata) in Australia. Plant Disease 96, 769
| First report of Phoma herbarum on tedera (Bituminaria bituminosa var. albomarginata) in Australia.Crossref | GoogleScholarGoogle Scholar |
Lu C, Chiang ST (1976) Lateral thickening in the stem of Agave rigida Mill. and Aloe vera L. Taiwania: Plant Science Journal 21, 204–230.
Madsen J, Hvelplund T, Weisbjerg MR (1997) Appropriate methods for the evaluation of tropical feeds for ruminants. Animal Feed Science and Technology 69, 53–66.
| Appropriate methods for the evaluation of tropical feeds for ruminants.Crossref | GoogleScholarGoogle Scholar |
Martínez S, Correal E, Real D, Ortuño A, Del Río JA (2010) Bituminaria bituminosa: a source of furanocoumarins of pharmaceutical interest. In ‘Recent progress in medicinal plants (RPMP). Drug plants I. Vol. 27: Ethnomedicine: source & mechanism-I’. (Eds AS Awaad, JN Govil, VK Singh) pp. 307–322. (Studium Press, LLC: Houston, TX)
Martínez-Fernández D, Walker DJ, Romero P, Martínez-Ballesta MC, Correal E (2012) The response of the leguminous fodder plant Bituminaria bituminosa to water stress. Journal Agronomy & Crop Science 198, 442–451.
| The response of the leguminous fodder plant Bituminaria bituminosa to water stress.Crossref | GoogleScholarGoogle Scholar |
Masters DG, Mata G, Revell CK, Davidson RH, Norman HC, Nutt BJ, Solah V (2006) Effects of Prima gland clover (Trifolium glanduliferum Boiss cv. Prima) consumption on sheep production and meat quality. Australian Journal of Experimental Agriculture 46, 291–297.
| Effects of Prima gland clover (Trifolium glanduliferum Boiss cv. Prima) consumption on sheep production and meat quality.Crossref | GoogleScholarGoogle Scholar |
Méndez, P (2000) El heno de tedera (Bituminaria bituminosa): un forraje apetecible para el caprino. In ‘3 Reunión Ibérica de Pastos y Forraxes’. Galicia, Spain, 7–13 May 2000. (Eds Consellería de Agricultura, Ganadería e Política Agrolimentaria) pp. 411–414. (Gráficas Garabal, s. l.: Santiago de Compostela, Spain)
Méndez P, Fernández M, Santos A (1991) Variedades de Bituminaria bituminosa (L.) Stirton (Leguminosae) en el archipélago canario. Pastos 20–21, 157–166.
Méndez P, Peters J, Morales D, Jiménez MS (2000) Características del intercambio gaseoso de las tederas (Bituminaria bituminosa) de Canarias. In ‘3 Reunión Ibérica de Pastos y Forraxes’. Galicia, Spain, 7–13 May 2000. (Eds Consellería de Agricultura, Ganadería e Política Agrolimentaria) pp. 411–414. (Gráficas Garabal, s. l.: Santiago de Compostela, Spain)
Méndez P, Álvarez S, Morales E, Bermejo L (2013a) Quantity and quality of goat mlk from a herd grazing on a cultivated pasture with tedera (Bituminaria bituminosa) and barley as main constituent. Advances in Animal Biosciences 2, 495
Méndez P, Bermejo L, Morales E, Álvarez S (2013b) Effect of goat grazing on tedera pasture (Bituminaria bituminosa). Advances in Animal Biosciences 2, 375
Northcote KH (1979) ‘A Factual Key for the Recognition of Australian Soils.’ 4th edn (Rellim Technical Publications: Glenside, S. Aus.)
Oakey H, Verbyla AP, Pitchford WS, Cullis BR, Kuchel H (2006) Joint modeling of additive and non-additive genetic line effects in single field trials. Theoretical and Applied Genetics 113, 809–819.
| Joint modeling of additive and non-additive genetic line effects in single field trials.Crossref | GoogleScholarGoogle Scholar | 16896718PubMed |
Oakey H, Verbyla AP, Cullis BR, Wei X, Pitchford WS (2007) Joint modeling of additive and non-additive (genetic line) effects in multi-environment trials. Theoretical and Applied Genetics 114, 1319–1332.
| Joint modeling of additive and non-additive (genetic line) effects in multi-environment trials.Crossref | GoogleScholarGoogle Scholar | 17426958PubMed |
Oertli EH, Rowe LD, Lovering SL, Ivie GW, Bailey EM (1983) Phototoxic effect of Thamnosma texana (Dutchman’s breeches) in sheep. American Journal of Veterinary Research 44, 1126–1129.
Oertli EH, Beier RC, Ivie GW, Rowe LD (1984) Linear furocoumarins and other constituents from Thamnosma texana. Phytochemistry 23, 439–441.
| Linear furocoumarins and other constituents from Thamnosma texana.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL2cXitVKmsb8%3D&md5=711a658910728d141b3bad6991241674CAS |
Oldham CM, Real D, Bailey HJ, Thomas D, Van Burgel AJ, Vercoe P, Correal E, Rios S (2013a) Australian and Spanish scientists are collaborating in the domestication of tedera: young merino sheep grazing a monoculture of tedera in autumn showed preference for certain accessions but no signs of ill health. Crop and Pasture Science 64, 399–408.
| Australian and Spanish scientists are collaborating in the domestication of tedera: young merino sheep grazing a monoculture of tedera in autumn showed preference for certain accessions but no signs of ill health.Crossref | GoogleScholarGoogle Scholar |
Oldham CM, Wood D, Milton J, Real D, Vercoe P, Van Burgel AJ (2013b) An animal house study on utilisation of fresh tedera (Bituminaria bituminosa var albomarginata and crassiuscula) by merino wethers. Animal Production Science in press.
Pazos-Navarro M, Dabauza M, Correal E, Hanson K, Teakle N, Real D, Nelson M (2011) Next generation DNA sequencing technology delivers valuable genetic markers for the genomic orphan legume species, Bituminaria bituminosa. BMC Genetics 12, 104
| Next generation DNA sequencing technology delivers valuable genetic markers for the genomic orphan legume species, Bituminaria bituminosa.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC38XivVKhtLo%3D&md5=1fb766cd34a75014423df75005002b26CAS | 22171578PubMed |
Pazos-Navarro M, del Río JA, Ortuño A, Romero-Espinar P, Correal E, Dabauza M (2012) Micrpropagation from apical and nodal segments of Bituminaria bituminosa and the furanocoumarin content of propagated plants. The Journal of Horticultural Science & Biotechnology 87, 29–35.
Pazos-Navarro M, Dabauza M, Correal E, Walker D, del Rio JA, Ortuño A, Méndez P, Santos A, Ríos S, Martínez-Frances V, Real D (2013a) Legumes for grazing and health: the case of Bituminaria bituminosa. In ‘Legumes: types, nutritional composition and health benefits’. (Eds H Satou, R Nakamura) (Nova Science Publishers Inc.: New York)
Pazos-Navarro M, Río J, Ortuño A, Romero-Espinar P, Correal E, Dabauza M (2013b) Plant regeneration from different explant types of Bituminaria bituminosa and furanocoumarin content along plant regeneration stages. Plant Growth Regulation 70, 123–129.
| Plant regeneration from different explant types of Bituminaria bituminosa and furanocoumarin content along plant regeneration stages.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXmvVehsbg%3D&md5=8be390565f3a5c83309db2ca27b8e17bCAS |
Pérez V, Sagot P (1867) De la végétation aux Iles Canaries, des plantes des pays tempérés et des Plantes des régions intertropicales et physionomie générale de leur agriculture. In ‘L’Agriculture pratique des pays chauds’. pp. 1–95. (Augustin Challamel: Paris)
R Development Core Team (2009) ‘R: A Language and Environment for Statistical Computing.’ (R. Foundation for Statistical Computing: Vienna)
Ramos E, de la Puente JL (1983) Posibilidades de desarrollo ganadero con base territorial en las islas Canarias. Informe de la Agencia de Desarrollo Ganadero de la Consejería de Agricultura, Ganadería y Pesca de la Junta de Canarias (Unpublished report).
Real D (1997) Quantitative genetics of sheep preference in Red Clover (Trifolium pratense L.) under spaced plant and sward conditions. PhD Thesis, Massey University, Palmerston North, New Zealand.
Real D, Verbyla AP (2010) Maximizing genetic gains using a ‘plant’ model in the Tedera (Bituminaria bituminosa var. albomarginata and var. crassiuscula) breeding program in Australia. In ‘Options Méditerranéennes’. Alicante, Spain. Vol. 92. (Eds C Porqueddu, S Ríos Ruiz) pp. 87–96. (CIHEAM: Paris)
Real D, Albertsen TO, Snowball R, Howieson JG, Revell C, Ewing MA, Correal E, Mendez P, Rios S (2008a) Bituminaria bituminosa var. albomarginata (Lancelot trefoil), a novel perennial forage legume for low-rainfall Mediterranean environments in Western Australia. In ‘XXI International Grassland Congress and VIII International Rangeland Congress’. Hohhot, China. Vol. II. pp. 452. (Guangdong People’s Publishing House: Beijing)
Real D, Foster K, Correal E, Kidd D, Méndez P (2008b) Techniques for artificial hybridization in the self-pollinated forage legume Bituminaria bituminosa and the cross-pollinated forage legume Hedysarum coronarium. In ‘XXI International Grassland Congress and VIII International Rangeland Congress’. Hohhot, China. Volume II. pp. 347. (Guangdong People’s Publishing House: Beijing)
Real D, Correal E, Méndez P, Santos A, Ríos Ruiz S, Sternberg M, Dini-Papanastasi O, Pecetti L, Tava A (2009) Bituminaria bituminosa C.H. Stirton (synonym: Psoralea bituminosa L.). CIAT/FAO Grassland Species Profiles. Available at: www.fao.org/ag/AGP/AGPC/doc/GBASE/new_species/tedera/bitbit.htm
Real D, Li GD, Clark S, Albertsen TO, Hayes RC, Denton MD, D’Antuono MF, Dear BS (2011) Evaluation of perennial forage legumes and herbs in six Mediterranean environments. Chilean Journal of Agricultural Research 71, 357–369.
| Evaluation of perennial forage legumes and herbs in six Mediterranean environments.Crossref | GoogleScholarGoogle Scholar |
Revell C, Revell D (2007) Meeting ‘duty of care’ obligations when developing new pasture species. Field Crops Research 104, 95–102.
| Meeting ‘duty of care’ obligations when developing new pasture species.Crossref | GoogleScholarGoogle Scholar |
Revell CK, Ewing MA, Real D, Nichols PGH, Sandral GA (2013) Commercialisation and impacts of pasture legumes in southern Australia – lessons learnt. In ‘22nd International Grassland Congress’. Sydney, NSW. (International Grassland Congress)
Rossiter RC (1966) Ecology of the Mediterranean annual-type pasture. In ‘Advances in agronomy’. Vol. 18. (Ed. AG Norman) pp. 1–56. (Elsevier BV: Amsterdam)
Shimamura S, Mochizuki T, Nada Y, Fukuyama M (2003) Formation and function of secondary aerenchyma in hypocotyl, roots and nodules of soybean (Glycine max) under flooded conditions. Plant and Soil 251, 351–359.
| Formation and function of secondary aerenchyma in hypocotyl, roots and nodules of soybean (Glycine max) under flooded conditions.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXis1Cit78%3D&md5=9b6227b300bbffda7452fcab0e688f98CAS |
Shimamura S, Yamamoto R, Nakamura T, Shimada S, Komatsu S (2010) Stem hypertrophic lenticels and secondary aerenchyma enable oxygen transport to roots of soybean in flooded soil. Annals of Botany 106, 277–284.
| Stem hypertrophic lenticels and secondary aerenchyma enable oxygen transport to roots of soybean in flooded soil.Crossref | GoogleScholarGoogle Scholar | 20660468PubMed |
Sleper DA, Poehlman JM (2006) ‘Breeding field crops.’ 5th edn (Blackwell Publishing: Ames, IA)
Smith AB, Cullis BR, Thompson R (2005) The analysis of crop cultivar breeding and evaluation trials: an overview of current mixed model approaches. The Journal of Agricultural Science 143, 449–462.
| The analysis of crop cultivar breeding and evaluation trials: an overview of current mixed model approaches.Crossref | GoogleScholarGoogle Scholar |
Sternberg M, Gutman M, Perevolotsky A, Ungar ED, Kigel J (2000) Vegetation response to grazing management in a Mediterranean herbaceous community: a functional group approach. Journal of Applied Ecology 37, 224–237.
| Vegetation response to grazing management in a Mediterranean herbaceous community: a functional group approach.Crossref | GoogleScholarGoogle Scholar |
Sternberg M, Gishri N, Mabjeesh SJ (2006) Effects of grazing on Bituminaria bituminosa (L.) Stirton: a potential forage crop in Mediterranean grasslands. Journal Agronomy & Crop Science 192, 399–407.
| Effects of grazing on Bituminaria bituminosa (L.) Stirton: a potential forage crop in Mediterranean grasslands.Crossref | GoogleScholarGoogle Scholar |
Stirton CH (1981) Tribe 11. Psoraleeae (Benth.) Rydb. (1919). In ‘Advances in legume systematics. Part 1’. (Ed. RMPPH Raven) pp. 337–343. (Kew Books, Royal Botanic Gardens: Kew, UK)
Suriyagoda LDB, Real D, Renton M, Lambers H, Ryan MH (2013) Establishment, survival, and herbage production of novel, summer-active perennial pasture legumes in the low-rainfall cropping zone of Western Australia as affected by plant density and cutting frequency. Crop and Pasture Science 64, 71–85.
| Establishment, survival, and herbage production of novel, summer-active perennial pasture legumes in the low-rainfall cropping zone of Western Australia as affected by plant density and cutting frequency.Crossref | GoogleScholarGoogle Scholar |
Tava A, Pecetti L, Ricci M, Pagnotta MA, Russi L (2007) Volatile compounds from leaves and flowers of Bituminaria bituminosa (L.) Stirt. (Fabaceae) from Italy. Flavour and Fragrance Journal 22, 363–370.
| Volatile compounds from leaves and flowers of Bituminaria bituminosa (L.) Stirt. (Fabaceae) from Italy.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXhtFKjsr%2FO&md5=dbd0a8020478c5a66a0836ad84ddc3e6CAS |
Teakle NL, Real D (2010) Preliminary assessment reveals tolerance to salinity and waterlogging (and these stresses combined) in Tedera (Bituminaria bituminosa var. albomarginata). In ‘Options Méditerranéennes’. (Eds C Porqueddu, S Rios) pp. 151–154. (CIHEAM: Paris)
Teakle NL, Armstrong J, Barrett-Lennard EG, Colmer T (2011) Aerenchymatous phellem in hypocotyl and roots enables O2 transport in Melilotus siculus. New Phytologist 190, 340–350.
| Aerenchymatous phellem in hypocotyl and roots enables O2 transport in Melilotus siculus.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXmt1GktLY%3D&md5=d390014ef77c9168a2e2404808459ce4CAS | 21299566PubMed |
Walker DJ, Monino I, Correal E (2006) Genome size in Bituminaria bituminosa (L.) C.H. Stirton (Fabaceae) populations: separation of ‘true’ differences from environmental effects on DNA determination. Environmental and Experimental Botany 55, 258–265.
| Genome size in Bituminaria bituminosa (L.) C.H. Stirton (Fabaceae) populations: separation of ‘true’ differences from environmental effects on DNA determination.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXhtlWhsLnK&md5=79a79c3db9bcb570c735d43a8ba9964aCAS |
Walker D, Romero P, Correal E (2010) Cold tolerance, water relations and accumulation of osmolytes in Bituminaria bituminosa. Biologia Plantarum 54, 293–298.
| Cold tolerance, water relations and accumulation of osmolytes in Bituminaria bituminosa.Crossref | GoogleScholarGoogle Scholar |