Page 70 - 《广西植物》2025年第8期
P. 70
1 4 3 6 广 西 植 物 45 卷
FANG Gꎬ SHEN ZXꎬ SUN Wꎬ et al.ꎬ 2015. A meta ̄analysis of pollination time of chestnut ‘Yanshanzaofeng’ [J]. Journal
the effects of experimental warming on plant physiology and of Beijing Forestry Universityꎬ 47(1): 1-10. [刘淑玟ꎬ 郭
growth on the Tibetan Plateau [J]. Journal of Plant Growth 素娟ꎬ 2025. 板栗‘燕山早丰’柱头可授性和最适授粉时
Regulationꎬ 34: 57-65. 间 [J]. 北京林业大学学报ꎬ 47(1): 1-10.]
FISOGNI Aꎬ CRISTOFOLINI Gꎬ ROSSI Mꎬ et al.ꎬ 2011. LIU XYꎬ LIANG QZꎬ QI XLꎬ et al.ꎬ 2024. Effects of
Pollinator directionality as a response to nectar gradient: temperature stress on the rate of pollen germination and
promoting outcrossing while avoiding geitonogamy [J]. Plant pollen tube growth in ‘Dashehari’ [J]. Chinese Journal of
Biologyꎬ 13: 848-856. Applied and Environmental Biologyꎬ 30 ( 6 ): 1161 -
FITTER AHꎬ FITTER RSRꎬ 2002. Rapid changes in flowering 1166. [刘馨语ꎬ 梁清志ꎬ 祁小利ꎬ 等ꎬ 2024. 温度胁迫对
time in British plants [ J ]. Scienceꎬ 296(5573): ‘椰香芒’花粉萌发率和花粉管生长的影响 [J]. 应用与
1689-1691. 环境生物学报ꎬ 30(6): 1161-1166.]
FORREST Jꎬ INOIYE DWꎬ 2010. Flowering phenology in LIU YZꎬ MU JPꎬ NIKLAS KJꎬ et al.ꎬ 2012. Global warming
subalpine meadows: Does climate variation influence reduces plant reproductive output for temperate multi ̄
community co ̄flowering patterns? [ J ]. Ecologyꎬ 91(2): inflorescence species on the Tibetan plateau [ J ]. New
431-440. Phytologistꎬ 195(2): 427-436.
HEDHLY Aꎬ HORMAZA JIꎬ HERRERO Mꎬ 2009. Global MEINERI Eꎬ SKARPAAS Oꎬ SPINDELBÖCK Jꎬ et al.ꎬ
warming and sexual plant reproduction [J]. Trends in Plant 2014. Direct and size ̄dependent effects of climate on flowering
Scienceꎬ 14(1): 30-36. performance in alpine and lowland herbaceous species
HOOVER SERꎬ LADLEY JJꎬ SHCHEPETKINA AAꎬ et al.ꎬ [J]. Journal of Vegetation Scienceꎬ 25(1): 275-286.
2012. Warmingꎬ CO ꎬ and nitrogen deposition interactively MEMMOTT Jꎬ CRAZE PGꎬ WASER NMꎬ et al.ꎬ 2007. Global
2
affect a plant ̄pollinator mutualism [ J]. Ecology Lettersꎬ warming and the disruption of plant ̄pollinator interactions
15(3): 227-234. [J]. Ecology Lettersꎬ 10(8): 710-717.
ˇ MILLER AEꎬ SCHIMEL JPꎬ SICKMAN JOꎬ et al.ꎬ 2007.
JACKWERTH Kꎬ BIELLAPꎬ KLECKA Jꎬ 2024. Pollen
thermotolerance of a widespread plantꎬ Lotus corniculatusꎬ in Mineralization responses at near ̄zero temperatures in three
response to climate warming: Possible local adaptation of alpine soils [J]. Biogeochemistryꎬ 84: 233-245.
populations from different elevations [ J]. Plant Biologyꎬ MILLER ̄STRUTTMANN NEꎬ GEIB JCꎬ FRANKLIN JDꎬ et
12: e17148. al.ꎬ 2015. Functional mismatch in a bumble bee pollination
KOTI Sꎬ REDDY KRꎬ REDDY VRꎬ et al.ꎬ 2005. Interactive mutualism under climate change [J]. Scienceꎬ 349(6254):
effects of carbon dioxideꎬ temperatureꎬ and ultraviolet ̄B 1541-1544.
radiation on soybean ( Glycine max L.) flower and pollen MONTERROSO VAꎬ WIEN HCꎬ 1990. Flower and pod
morphologyꎬ pollen productionꎬ germinationꎬ and tube lengths abscission due to heat stress in beans [ J]. Journal of the
[J]. Journal of Experimental Botanyꎬ 56(412): 725-736. American Society for Horticultural Scienceꎬ 115(4):
LAMBRECHT SCꎬ 2013. Floral water costs and size variation in 631-634.
the highly selfing Leptosiphon bicolor ( Polemoniaceae ) MU JPꎬ PENG YHꎬ XI XQꎬ et al.ꎬ 2015. Artificial asymmetric
[ J ]. International Journal of Plant Sciencesꎬ 174(1): warming reduces nectar yield in a Tibetan alpine species of
74-84. Asteraceae [J]. Annals of Botanyꎬ 116(6): 899-906.
LEMMENS Cꎬ DE BOECK HJꎬ ZAVALLONI Cꎬ et al.ꎬ NAM BEꎬ KIM JGꎬ 2020. Flowering season of vernal herbs is
2008. How is phenology of grassland species influenced by shortened at elevated temperatures with reduced precipitation
climate warming across a range of species richness? [ J]. in early spring [J]. Scientific Reportsꎬ 10(1): 17494.
Community Ecologyꎬ 9: 33-42. NOZAKI Kꎬ TAKAMURA Tꎬ FUKAI Sꎬ 2006. Effects of high
LI DFꎬ 2018. Impact of nectar robbing on female reproductive temperature on flower colour and anthocyanin content in pink
success of Impatiens oxyanthera ( Balsaminaceae ) under flower genotypes of greenhouse chrysanthemum
simulated climate warming [ D]. Nanchong: China West ( Chrysanthemum morifolium Ramat.) [ J ]. Journal of
Normal University. [李登飞ꎬ 2018. 模拟增温条件下盗蜜 Pomology and Horticultural Scienceꎬ 81(4): 728-734.
对红雉凤仙花雌性生殖成功的影响 [D]. 南充: 西华师 PECL GTꎬ ARAÚJO MBꎬ BELL JDꎬ et al.ꎬ 2017. Biodiversity
范大学.] redistribution under climate change: Impacts on ecosystems
LIU Mꎬ MA ZLꎬ 2021. Responses of biomass allocation to and human well ̄being [J]. Scienceꎬ 355(6332): eaai9214.
simulated warming in an alpine scrubland of eastern PELLEGRINO Gꎬ MAHMOUDI Mꎬ PALERMO AMꎬ 2021.
Qinghai ̄Tibetan Plateau [ J]. Acta Ecologica Sinicaꎬ 41 Pollen viability of Euro ̄Mediterranean orchids under
(4): 1421-1430. [刘美ꎬ 马志良ꎬ 2021. 青藏高原东部 different storage conditions: The possible effects of climate
高寒灌丛生物量分配对模拟增温的响应 [J]. 生态学 change [J]. Plant Biologyꎬ 23(1): 1-127.
报ꎬ 41(4): 1421-1430.] PÖRTNER HOꎬ SCHOLES RJꎬ ARNETH Aꎬ et al.ꎬ 2023.
LIU SWꎬ GUO SJꎬ 2025. Stigma receptivity and optimal Overcoming the coupled climate and biodiversity crises and
