[1]陈烨丽,李丽,白善军,等. 株行距对竹柳胸径影响的研究[J]. 农业科技通讯,2011(2):74-75.
[2]白善军,李玉娟,张健,等. 沿海滩涂竹柳直插造林技术[J]. 现代农业科技,2010(13):241.
[3]薛崇昀,贺文明,聂怡,等. 竹柳材性、纤维质量及制浆性能的研究[J]. 中华纸业,30(15):60-63.
[4]王文成,郭艳超,李克晔,等. 盐胁迫对竹柳种苗形态及生理指标的影响[J]. 华北农学报,2011,26(增刊):143-146.
[5]朱继军,陈必胜,王玉勤,等. 苏柳、竹柳等速生能源柳引种研究[J]. 安徽农业科学,2012,40(29):14290-14291,14322.
[6]Kanazawa S,Sano S,Koshiba T,et al. Changes in antioxidative enzymes in cucumber cotyledons during natural senescence:comparison with those during dark-induced senescence[J]. Plant Physiol,2000,109(2):211-216.
[7]Zai X M,Zhu S N,Qin P,et al. Effect of Glomus mosseae on chlorophyll content,chlorophyll fluorescence parameters,and chloroplast ultrastructure of beach plum (Prunus maritima) under NaCl stress[J]. Photosynthetica,2012,50(3):323-328.
[8]黄有总,张国平. 叶绿素荧光测定技术在麦类作物耐盐性鉴定中的应用[J]. 麦类作物学报,2004,24(3):114-116.
[9]徐呈祥,刘友良,马艳萍. 硅对盐胁迫下库拉索芦荟叶绿素荧光参数和叶绿体超微结构的影响[J]. 园艺学报,2007,34(4):979-984.
[10]Munns R,James R A,Sirault X R R,et al. New phenotyping methods for screening wheat and barley for beneficial responses to water deficit[J]. J Exp Bot,2010,61(13):3499-3507.
[11]Scagel C F. Changes in cutting composition during early stages of adventitious rooting of miniature rose altered by inoculation with arbuscular mycorrhizal fungi[J]. Journal of the American Society for Horticultural Science,2004,129(5):624-634.
[12]Eelin H,Kapoor R,Giri B. Arbuscular mycorrhizal fungi in alleviation of salt stress:a review[J]. Ann Bot,2009,104(7):1263-1280.
[13]孙吉庆,刘润进,李敏. 丛枝菌根真菌提高植物抗逆性的效应及其机制研究进展[J]. 植物生理学报,2012,48(9):845-852.
[14]陆爽,郭欢,王绍明,等. 盐胁迫下AM真菌对紫花苜蓿生长及生理特征的影响[J]. 水土保持学报,2011,25(2):227-231.
[15]Sheng M,Tang M,Chen H,et al. Influence of arbuscular mycorrhizae on the root system of maize plants under salt stress[J]. Can J Microbiol,2009,55(7):879-886.
[16]中国科学院上海植物生理研究所,上海市植物生理学会. 现代植物生理学实验指南[M]. 北京:科学出版社,1999.
[17]Sawers R J H,Gutjahr C,Paszkowski U. Cereal mycorrhiza:an ancient symbiosis in modern agriculture[J]. Trends Plant Sci,2008,13(2):93-97.
[18]Colla G,Rouphael Y,Cardarelli M,et al. Alleviation of salt stress by arbuscular mycorrhizal in zucchini plants grown at low and high phosphorus concentration[J]. Biol Fertil Soils,2008,44(3):501-509.
[19]Sheng M,Tang M,Chen H,et al. Influence of arbuscular mycorrhizae on photosynthesis and water status of maize plants under salt stress[J]. Mycorrhiza,2008,18(6/7):287-296.
[20]Giri B,Mukerji K G. Mycorrhizal inoculant alleviates salt stress in Sesbania aegyptiaca and Sesbania grandiflora under field conditions:evidence for reduced sodium and improved magnesium uptake[J]. Mycorrhiza,2004,14(5):307-312.
[21]Henriques F S. Leaf chlorophyll fluorescence:background and fundamentals for plant biologist[J]. Bot Rev,2009,75(3):249-270.
[22]Qin L Q,Li L,Bi C,et al. Damaging mechanisms of chilling-and salt stress to Arachis hypogaea L. leaves[J]. Photosynthetica,2011,49(1):37-42.
[1]吴学龙,白善军,薛红新,等.竹柳全光照喷雾扦插基质快繁育苗技术[J].江苏农业科学,2014,42(02):153.
Wu Xuelong,et al.Rapid propagation techniques of Zhu willow by twig cutting with full light and auto-spraying system[J].Jiangsu Agricultural Sciences,2014,42(08):153.
[2]郝振萍,王欢,司逸茹.解磷真菌对竹柳扦插苗生长和矿质元素吸收的影响[J].江苏农业科学,2015,43(03):169.
Hao Zhenping,et al.Effects of phosphate-solubilizing fungi on growth and mineral elements absorption of bamboo willow cutting seedlings[J].Jiangsu Agricultural Sciences,2015,43(08):169.
[3]麻浩,程志义,钱芳,等.竹柳种植新技术及其在荒漠和盐碱地中的应用[J].江苏农业科学,2020,48(12):119.
Ma Hao,et al.New planting technology of bamboo willow and its application in desert and saline-alkali lands[J].Jiangsu Agricultural Sciences,2020,48(08):119.