References |
-
Abeli, T; Brancaleoni, L; Marchesini, R; Orsenigo, S; Rossi, G; Gerdol, R (2017) Fertiliser application positively affects plants performance but reduces seed viability in seashore mallow (Kosteletzkya pentacarpos): implication for biomass production and species conservation.
ANNALS OF APPLIED BIOLOGY. 170, 2, 263. -272.
(see details)
-
Blits, K. C. and J. L. Gallagher (1990) Salinity tolerance of Kosteletzkya virginica. I.Shoot growth, ion and water relations.
Plant Cell Environment. 13, 409-418.
(see details)
-
Bueno, M. and M. P. Cordovilla (2019) Polyamines in Halophytes.
Frontiers in Plant Science. 10,
(see details)
-
Gallagher, J. L. (1985) Halophytic crops for cultivation at seawater salinity.
Plant and Soil. 89, 323-336.
(see details)
-
Glenn, E. P. and J. W. Oleary (1984) Relationship between salt accumulation and water content of dicotyledonous halophytes..
Plant Cell and Environment. 7, 4, 253-261.
(see details)
-
Gohar, Zahida N.; Ahmad, Rafiq; Khan, D. (2016) ROOT MORPHOLOGY AND SEEDLING GROWTH OF THREE MALVACEOUS SALT TOLERANT PLANTS AT SALINE RHIZOSPHERE.
13, 2, 223. -233.
(see details)
-
Gorham, J (1996) Glycinebetaine is a major nitrogen-containing solute in the malvaceae.
PHYTOCHEMISTRY. 43, 2, 367. -369.
(see details)
-
Guo, Y. Q., Z. Y. Tian, G. Y. Qin, D. L. Yan, J. Zhang, W. Z. Zhou and P. Qin (2009) Gene expression of halophyte Kosteletzkya virginica seedlings under salt stress at early stage.
Genetica. 137, 2, 189-199.
(see details)
-
Guo, YQ; Tian, ZY; Yan, DL; Zhang, J; Qin, P (2009) Effects of nitric oxide on salt stress tolerance in Kosteletzkya virginica.
LIFE SCIENCE JOURNAL-ACTA ZHENGZHOU UNIVERSITY OVERSEAS EDITION. 6, 1, 67. -75.
(see details)
-
Han, R. M., I. Lefevre, A. Albacete, F. Perez-Alfocea, G. Barba-Espin, P. Diaz-Vivancos, M. Quinet, C. J. Ruan, J. A. Hernandez, E. Cantero-Navarro and S. Lutts (2013) Antioxidant enzyme activities and hormonal status inresponse to Cd stress in the wetland halophyte Kosteletzkya virginica under saline conditions.
Physiologia Plantarum. 147, 3, 352-368.
(see details)
-
Knothe, G; Moser, BR (2015) Fatty acid profile of seashore mallow (Kosteletzkya pentacarpos) seed oil and properties of the methyl esters.
EUROPEAN JOURNAL OF LIPID SCIENCE AND TECHNOLOGY. 117, 8, 1287. -1294.
(see details)
-
Moser, B. R., B. S. Dien, D. M. Seliskar and J. L. Gallagher (2013) Seashore mallow (Kosteletzkya pentacarpos) as a salt-tolerant feedstock for production of biodiesel and ethanol.
Renewable Energy. 50, 833-839.
(see details)
-
Orsenigo, S; Mondoni, A; Tazzari, ER; Vagge, I; Rossi, G; Abeli, T (2019) Seed dormancy and seedling growth changes in response to scarification treatments and population origin in Kosteletzkya pentacarpos (Malvaceae).
SEED SCIENCE AND TECHNOLOGY. 47, 1, 59. -64.
(see details)
-
POLJAKOFFMAYBER, A; SOMERS, GF; WERKER, E; GALLAGHER, JL (1994) SEEDS OF KOSTELETZKYA-VIRGINICA (MALVACEAE) - THEIR STRUCTURE, GERMINATION, AND SALT TOLERANCE .2. GERMINATION AND SALT TOLERANCE.
AMERICAN JOURNAL OF BOTANY. 81, 1, 54. -59.
(see details)
-
Pino, J; de Roa, E (2007) Population biology of Kosteletzkya pentacarpos (Malvaceae) in the Llobregat delta (Catalonia, NE of Spain).
PLANT ECOLOGY. 188, 1, 1. -16.
(see details)
-
Qin, P., R. M. Han, M. X. Zhou, H. S. Zhang, L. S. Fan, D. M. Seliskar and J. L. Gallagher (2015) Ecological engineering through the biosecure introduction of Kosteletzkya virginica (seashore mallow) to saline lands in China: A review of 20 years of activity.
Ecological Engineering. 74, 174-186.
(see details)
-
Ruan, CJ; Xing, WH; da Silva, JAT (2012) Potential of five plants growing on unproductive agricultural lands as biodiesel resources.
RENEWABLE ENERGY. 41, 191. -199.
(see details)
-
Somers, G. F. (1975) Seed-bearing halophytes as food plants.
(see details)
-
Somers, G. F., M. Fontes and D. M. Grant. (1979) Halophytes from coastal salt marshes: A potential source of crop plants for arid lands. In: Arid land plant resources.
402. -418.
(see details)
-
Tang, X. L., H. Y. Wang, C. Y. Shao and H. B. Shao (2015) Global Gene Expression of Kosteletzkya virginica Seedlings Responding to Salt Stress.
Plos One. 10, 4,
(see details)
-
Van Oosten, M. J. and A. Maggio (2015) Functional biology of halophytes in the phytoremediation of heavy metal contaminated soils.
Environmental and Experimental Botany. 111, 135-146.
(see details)
-
Wang, Hongyan; Tang, Xiaoli; Wang, Honglei; Shao, Hongbo (2015) Physiological responses of Kosteletzkya virginica to coastal wetland soil..
354581.
(see details)
-
Zhang, HS; Zai, XM; Qin, P (2018) Effects of two exogenous soil fungi on Kosteletzkya virginica rhizosphere saline soil aggregates.
BASIC & CLINICAL PHARMACOLOGY & TOXICOLOGY. 123, 102. -103.
(see details)
-
Zhou, M. X., T. Engelmann and S. Lutts (2019) Salinity modifies heavy metals and arsenic absorption by the halophyte plant species Kosteletzkya pentacarpos and pollutant leaching from a polycontaminated substrate.
Ecotoxicology and Environmental Safety. 182,
(see details)
|