(1) Su P X, Shi R, Zhou Z J, et al. Characteristics and relationships of foliar element content and specific leaf volume of alpine plant functional groups. International Journal of Agriculture & Biology, 2018, 20(7): 1663-1671.
(2) Su P X, Li S J, Zhou Z J, et al. Partitioning evapotranspiration of desert plants under different water regimes in the inland Heihe River Basin, Northwestern China. Arid Land Research and Management, 2016, 30(2): 138-152.
(3) Su P X, Xie T T. Agroecology Research and Practice in the Oasis Region, Northwest China. In: Luo S M, Gliessman S R (eds). Agroecology in China: Science, Practice, and Sustainable Management. Boca Raton, USA: CRC Press, 2016: 315-350.
(4) Su P X, Yan Q D, Xie T T, et al. Associated growth of C3 and C4 desert plants helps the C3 species at the cost of the C4 species. Acta Physiologiae Plantarum, 2012, 34(6): 2057-2068.
(5) Su P X. Photosynthesis of C4 desert plants. Ramawat K G (ed.) Desert Plants: Biology and Biotechnology. Berlin Heidelberg: Springer Verlag, 2010: 243-259.
(6) Su P X, Yan Q D, Gao S. Photosynthetic characteristics of desert plant Hedysarum scoparium and its indicating significances on environment. In: Michael Theophanides, Theophile Theophanides. Environmental Engineering and management. Greece, Athens Institute for Education and Research, 2009: 357-368.
(7) Su P X, Chen H B, Yan Q D. Plant community characteristics and their relationships with climate in the Hexi Corridor region of northwestern China. Frontiers of Forestry in China, 2008, 3(4): 393-400.
(8) Su P X, Cheng G D, Yan Q D, et al. Photosynthetic regulation of C4 desert plant Haloxylon ammodendron under drought stress. Plant Growth Regulation, 2007, 51: 139-147.
(9) Su P X, Liu X M. Photosynthetic characteristics of linze jujube in conditions of high temperature and irradiation. Scientia Horticulturae, 2005, 104: 339-350.
(10) Su P X, Liu X M, Zhang L X, et al. Comparison of δ13C values and gas exchange of assimilating shoots of desert plants Haloxylon ammodendron and Calligonum mongolicum with other plants. Israel Journal of Plant Sciences, 2004, 52: 87-97.
(11) Su P X, Chen H S, An L Z, et al. Carbon assimilation characteristics of plants in oasis-desert ecotone and their response to CO2 enrichment. Science in China Ser. D Earth Sciences, 2004, 47(Supp.1): 39-49.
(12) Su P X, Xie T T, Zhou Z J. C4 plant species and geographical distribution in relation to climate in the desert vegetation of China. Sciences in Cold and Arid Regions, 2011, 3 (5): 381-391.
(13) 苏培玺, 王秀君, 解婷婷, 等. 干旱区荒漠无机固碳能力及土壤碳同化途径. 科学通报, 2018, 63(8): 755-765.
(14) 苏培玺, 周紫鹃, 侍瑞, 等. 高寒草毡层基本属性与固碳能力沿水分和海拔梯度的变化. 生态学报, 2018, 38(3): 1040-1052.
(15) 苏培玺, 周紫鹃, 张海娜, 等. 荒漠植物沙拐枣群体光合作用及土壤呼吸研究. 北京林业大学, 2013, 35(3): 56-64.
(16) 苏培玺, 丁松爽, 解婷婷. 甘肃河西走廊临泽小枣冻害成因及防治对策. 自然灾害学报, 2009, 18(6): 1-8.
(17) 苏培玺, 解婷婷, 丁松爽. 河西走廊绿洲棉花集群高产栽培试验研究. 干旱地区农业研究, 2009, 27(6): 108-113.
(18) 苏培玺, 严巧娣. 内陆黑河流域植物稳定碳同位素变化及其指示意义. 生态学报, 2008, 28(4): 1616-1624.
(19) 苏培玺, 严巧娣. C4荒漠植物梭梭和沙拐枣在不同水分条件下的光合作用特征. 生态学报, 2006, 26(1): 75-82.
(20) 苏培玺, 安黎哲, 马瑞君, 等. 荒漠植物梭梭和沙拐枣的花环结构及C4光合特征. 植物生态学报, 2005, 29(1): 1-7.
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