References |
-
Ahmed, MMM; El Hag, FM (2003) Energy supply to livestock from tropical rangeland during the dry season.
TROPICAL ANIMAL HEALTH AND PRODUCTION. 35, 2, 169. -177.
(see details)
-
Cao, D. H., X. Gao, J. Liu, X. P. Wang, S. J. Geng, C. W. Yang, B. Liu and D. C. Shi (2012) Root-Specific DNA Methylation in Chloris virgata, a Natural Alkaline-Resistant Halophyte, in Response to Salt and Alkaline Stresses.
Plant Molecular Biology Reporter. 30, 5, 1102-1109.
(see details)
-
Guo, C. Y., X. Z. Wang, L. Chen, L. N. Ma and R. Z. Wang (2015) Physiological and biochemical responses to saline-alkaline stress in two halophytic grass species with different photosynthetic pathways.
Photosynthetica. 53, 1, 128-135.
(see details)
-
Li, C. Y., B. Fang, C. W. Yang, D. C. Shi and D. L. Wang (2009) Effects of Various Salt-Alkaline Mixed Stresses on the State of Mineral Elements in Nutrient Solutions and the Growth of Alkali Resistant Halophyte Chloris Virgata.
Journal of Plant Nutrition. 32, 7, 1137-1147.
(see details)
-
Li, Qiang; Zhou, Dao-Wei (2018) Soil respiration versus vegetation degradation under the influence of three grazing regimes in the Songnen Plain.
LAND DEGRADATION & DEVELOPMENT. 29, 8, 2403. -2416.
(see details)
-
Lin, J., S. Shao, Y. Wang, M. Qi, L. Lin, Y. Wang and X. Yan (2016) Germination responses of the halophyte Chloris virgata to temperature and reduced water potential caused by salinity, alkalinity and drought stress.
Grass and Forage Science. 71, 3, 507-514.
(see details)
-
Nishiuchi, S., K. Fujihara, S. K. Liu and T. Takano (2010) Analysis of expressed sequence tags from a NaHCO(3)-treated alkali-tolerant plant, Chloris virgata.
Plant Physiology and Biochemistry. 48, 4, 247-255.
(see details)
-
Nishiuchi, S; Liu, S; Takano, T (2007) Isolation and characterization of a metallothionein-1 protein in Chloris virgata Swartz that enhances stress tolerances to oxidative, salinity and carbonate stress in Saccharomyces cerevisiaei.
BIOTECHNOLOGY LETTERS. 29, 8, 1301. -1305.
(see details)
-
Wang, RZ (2007) delta C-13 values, photosynthetic pathways, and plant functional types for some plants from saline meadows, Northeastern China.
PHOTOSYNTHETICA. 45, 1, 18. -22.
(see details)
-
Yang, C. W., A. Jianaer, C. Y. Li, D. C. Shi and D. L. Wang (2008) Comparison of the effects of salt-stress and alkali-stress on photosynthesis and energy storage of an alkali-resistant halophyte Chloris virgata.
Photosynthetica. 46, 2, 273-278.
(see details)
-
Yang, C. W., M. L. Zhang, J. Liu, D. C. Shi and D. L. Wang (2009) Effects of buffer capacity on growth, photosynthesis, and solute accumulation of a glycophyte (wheat) and a halophyte (Chloris virgata).
Photosynthetica. 47, 1, 55-60.
(see details)
-
Zhang, H. X., D. W. Zhou, Y. Tian, Y. X. Huang and Z. W. Sun (2013) Comparison of seed germination and early seedling growth responses to salinity and temperature of the halophyte Chloris virgata and the glycophyte Digitaria sanguinalis.
Grass and Forage Science. 68, 4, 596-604.
(see details)
-
Zhang, H., L. J. Irving, Y. Tian and D. Zhou (2012) Influence of salinity and temperature on seed germination rate and the hydrotime model parameters for the halophyte, Chloris virgata, and the glycophyte, Digitaria sanguinalis.
South African Journal of Botany. 78, 203-210.
(see details)
|