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9 期 余洪艳等: 水葱和香蒲叶经济性状对模拟增温和 CO 浓度倍增的响应 1 5 9 9
2
[J]. 应用与环境生物学报ꎬ 15(6): 750-755.] WRIGHT IJꎬ REICH PBꎬ CORNELISSEN JHCꎬ et al.ꎬ
SHORT FTꎬ KOSTEN Sꎬ MORGAN PAꎬ et al.ꎬ 2016. Impacts 2015. Assessing the generality of global leaf trait
of climate change on submerged and emergent wetland plants relationships [J]. New Phytolꎬ 166(2): 485-496.
[J]. Aquat Botꎬ 135: 3-17. WRIGHT IJꎬ REICH PBꎬ WESTOBY Mꎬ et al.ꎬ 2004. The
SUN Mꎬ TIAN Kꎬ ZHANG Yꎬ et al.ꎬ 2017. Research on leaf worldwide leaf economics spectrum [ J ]. Natureꎬ
functional traits and their environmental adaptation [ J]. 428(6985): 821-827.
Plant Sci Jꎬ 35(6): 940-949. [孙梅ꎬ 田昆ꎬ 张贇ꎬ 等ꎬ XU JPꎬ SUN Mꎬ WANG Hꎬ et al.ꎬ 2018. Photosynthetic
2017. 植物叶片功能性状及其环境适应研究 [J]. 植物科 response of Scirpus validus and Typha orientalis to elevated
学学报ꎬ 35(6): 940-949.] temperatures in Dianchi Lakeꎬ Southwestern China [J]. J Mt
SUN SNꎬ WANG Qꎬ SUN CCꎬ et al.ꎬ 2017. Response and Sciꎬ 15(12): 2666-2675.
adaptation of photosynthesis of cucumber seedlings to high XU JPꎬ TIAN Kꎬ SUN Mꎬ et al.ꎬ 2016. The growth response of
temperature stress [J]. Chin J Appl Ecolꎬ 28(5): 1603- Scirpus validus to elevated CO [J]. J SW For Univꎬ 36(5):
2
1610. [孙胜楠ꎬ 王强ꎬ 孙晨晨ꎬ 等ꎬ 2017. 黄瓜幼苗光合 84-88. [许俊萍ꎬ 田昆ꎬ 孙梅ꎬ 等ꎬ 2016. 水葱构件生长对
作用对高温胁迫的响应与适应 [J]. 应用生态学报ꎬ 大气 CO 浓度升高的响应 [ J]. 西南林业大学学报ꎬ
2
28(5): 1603-1610.] 36(5): 84-88.]
TOBITA Hꎬ KITAO Mꎬ UEMURA Aꎬ et al.ꎬ 2021. Species ̄ YAMORI Wꎬ HIKOSAKA Kꎬ WAY DAꎬ 2014. Temperature
specific nitrogen resorption efficiency in Quercus mongolica response of photosynthesis in C3ꎬ C4ꎬ and CAM plants:
and ascer mono in response to elevated CO and soil N temperature acclimation and temperature adaptation [ J].
2
deficiency [J]. Forestsꎬ 12(8): 1034. Photosynth Resꎬ 119(1): 101-117.
TONG KCꎬ HU SWꎬ YANG Yꎬ et al.ꎬ 2020. Effects of ZHANG Lꎬ ZHANG Wꎬ CHEN XPꎬ 2021. The effects and
atmospheric CO elevation and fertilization on yield and mechanism of climate change on vegetables quality: a review
2
nutritional quality of Japonica rice———A FACE study [J]. Chin J Eco ̄Agricꎬ 29(12): 2034-2045. [张璐ꎬ 张
[J]. Chin Riceꎬ 26(4): 10-17. [童楷程ꎬ 户少武ꎬ 杨阳ꎬ 伟ꎬ 陈新平ꎬ 2021. 气候变化对蔬菜品质的影响及其机制
等ꎬ 2020. 大气 CO 浓度升高和施肥对粳稻产量和稻米营养 [J]. 中国生态农业学报ꎬ 29(12): 2034-2045.]
2
品质的 影 响———FACE 研 究 [ J]. 中 国 稻 米ꎬ 26 (4): ZHANG Wꎬ HUANG Wꎬ ZHANG SBꎬ 2017. The study of a
10-17.] determinate growth orchid highlights the role of new leaf
WANG JLꎬ WEN XFꎬ ZHAO FHꎬ et al.ꎬ 2012. Effects of production in photosynthetic light acclimation [ J]. Plant
doubled CO concentration on leaf photosynthesisꎬ Ecolꎬ 218(8): 997-1008.
2
transpiration and water use efficiency of eight crop species ZHENG YPꎬ LI Fꎬ HOU YKꎬ et al.ꎬ 2019. Effect of increasing
[J]. Chin J Plant Ecolꎬ 36(5): 438-446. [王建林ꎬ 温学 CO concentration on photosynthesis and leaf water use
2
发ꎬ 赵风华ꎬ 等ꎬ 2012. CO 浓度倍增对 8 种作物叶片光 efficiency of crops [ J]. Transact Chin Soc Agric Engꎬ
2
合作用、蒸腾作用和水分利用效率的影响 [J]. 植物生态 35(10): 91-98. [郑云普ꎬ 李菲ꎬ 侯毅凯ꎬ 等ꎬ 2019. 大气
学报ꎬ 36(5): 438-446.] CO 浓度增加对作物光合性能及叶片水分利用效率的影
2
WANG Xꎬ WEI XLꎬ WU GYꎬ 2021. Effects of different 响 [J]. 农业工程学报ꎬ 35(10): 91-98.]
nitrogen forms and supply on photosynthetic characteristics ZWIENIECKI MAꎬ BRODRIBB TJꎬ HOLBROOK NMꎬ
and growth of Phoebe bournei seedlings under elevated CO 2007. Hydraulic design of leaves: insights from rehydration
2
concentration [J]. Sci Silv Sinꎬ 57(4): 173-181. [王晓ꎬ kinetics [J]. Plant Cell Environꎬ 30(8): 910-921.
韦小丽ꎬ 吴高殷ꎬ 等ꎬ 2021. CO 浓度升高条件下不同氮
2
素供应对闽楠幼苗光合特性及生长的影响 [J]. 林业科 (责任编辑 周翠鸣)
学ꎬ 57(4): 173-181.]
