1 |
IPCC.Climate Change 2013:The Physical Science Basis[M].Cambridge,UK:Cambridge University Press,2013.
|
2 |
秦大河,Thomas S.IPCC第五次评估报告第一工作组报告的亮点结论[J].气候变化研究进展,2014,10(1):1-6.
|
3 |
傅伯杰,牛栋,赵士洞.全球变化与陆地生态系统研究:回顾与展望[J].地球科学进展,2005,20(5):556-560.
|
4 |
刘洋,张健,杨万勤.高山生物多样性对气候变化响应的研究进展[J].生物多样性, 2009,17(1):88-96.
|
5 |
Guo Y L,Li X,Zhao Z F,et al.Prediction of the potential geographic distribution of the ectomycorrhizal mushroom Tricholoma matsutake under multiple climate change scenarios[J].Scientific Reports,2017,7(1):46221.
|
6 |
段义忠,王驰,王海涛,等.不同气候条件下沙冬青属植物在我国的潜在分布:基于生态位模型预测[J].生态学报,2020,40(21):7668-7680.
|
7 |
吴军,徐海根,陈炼.气候变化对物种影响研究综述[J].生态与农村环境学报,2011,27(4):1-6.
|
8 |
王绮,樊保国,赵光华.气候变化下毛榛在中国的潜在适生区预测[J].生态学杂志,2020,39(11):3774-3784.
|
9 |
何远政,黄文达,赵昕,等.气候变化对植物多样性的影响研究综述[J].中国沙漠,2021,41(1):59-66.
|
10 |
Woodward F I.Climate and plant distribution[J].Geographical Journal,1987,169(154):189-197.
|
11 |
Walther G R,Post E,Convey P,et al.Ecological responses to recent climate change[J].Nature,2002,416(6879):389-395.
|
12 |
Herzog S K,Kessler M.Local vs.regional control on species richness:a new approach to test for competitive exclusion at the community level[J].Global Ecology and Biogeography,2006,15(2):163-172.
|
13 |
Wróblewska A,Mirski P.From past to future:impact of climate change on range shifts and genetic diversity patterns of circumboreal plants[J].Regional Environmental Change,2018,18(2):409-424.
|
14 |
李国庆,刘长成,刘玉国,等.物种分布模型理论研究进展[J].生态学报,2013,33(16):4827-4835.
|
15 |
Phillips S J,Anderson R P,Schapire R E.Maximum entropy modeling of species geographic distributions[J].Ecological Modelling,2006,190(3/4):231-259.
|
16 |
赵泽芳,卫海燕,郭彦龙,等.人参潜在地理分布以及气候变化对其影响预测[J].应用生态学报,2016,27(11):3607-3615.
|
17 |
赵泽芳,卫海燕,郭彦龙,等.气候变化下孑遗裸果木(Gymnocarpos przewalskii)适宜生境分布[J].中国沙漠,2020,40(2):125-133.
|
18 |
张晓芹.西北旱区典型生态经济树种地理分布于气候适宜性研究[D].北京:中国科学院大学,2018.
|
19 |
常红,刘彤,王大伟,等.气候变化下中国西北干旱区梭梭(Haloxylon ammodendron)潜在分布[J].中国沙漠,2019,39(1):110-118.
|
20 |
廉永善.沙棘属植物生物学和化学[M].兰州:甘肃科学技术出版社,2000.
|
21 |
Yang B R,Halttunen T,Raimo O,et al.Flavonol glycosides in wild and cultivated berries of three major subspecies of Hippophaë rhamnoides and changes during harvesting period[J].Food Chemistry,2009,115(2):657-664.
|
22 |
张雨欣.基于Maxent模型-DNA条形码-HPLC的西藏沙棘叶质量分析研究[D].成都:成都中医药大学,2016.
|
23 |
秦振娴,张瑜,齐梦蝶,等.中国沙棘和西藏沙棘叶中化学成分的UPLC/Q-TOF-MS快速分析[J].中国中药杂志,2016,41(8):1461-1468.
|
24 |
张爱梅,韩雪英,张世虎,等.甘南高寒地区不同海拔西藏沙棘根瘤菌内生菌多样性[J].生物资源,2018,40(2):114-119.
|
25 |
廉永善,陈学林.沙棘属植物天然产物化学组分的时空分布[J].西北师范大学学报(自然科学版),2000,36(1):113-128.
|
26 |
许汀,许璐,王昊,等.基于5′锚定PCR法和磁珠富集法的西藏沙棘多态性SSR引物开发[J].复旦学报(自然科学版),2014,53(4):543-549.
|
27 |
王昊.西藏沙棘的谱系地理学研究[D].上海:复旦大学,2011.
|
28 |
于海彬,张镱锂,刘林山,等.基于GIS的青藏高原地区四种高山植物的空间遗传格局[J].生态学杂志,2014,33(5):1157-1163.
|
29 |
李小伟,张宏涛,张泽婧.西藏沙棘叶片黄酮含量与生态因子的相关性[J].生态环境学报,2018,27(2):239-245.
|
30 |
Hijmans R J,Cameron S E,Parra J L,et al.WORLDCLIM:very high resolution interpolated climate surfaces for global land areas[J].International Journal of Climatology,2005,25(15):1965-1978.
|
31 |
Kumar S K,Lee J H,Lahuerta J J,et al.Risk of progression and survival in multiple myeloma relapsing after therapy with IMIDs and bortezomib:a multicenter international myeloma working group study[J].Leukemia,2012,26(1):149-157.
|
32 |
Moss R H,Edmonds J A,Hibbard K A,et al.The next generation of scenarios for climate change research and assessment[J].Nature,2010,463(7282):747-756.
|
33 |
贺晓慧,宁小莉,郭彦龙,等.我国文冠果分布的气候地理特征及未来气候情景下适宜种植区预测[J].农业现代化研究,2019,40(2):316-324.
|
34 |
Swets J A.Measuring the accuracy of diagnostic systems[J].Science,1988,240(4857):1285-1293.
|
35 |
邓迪,赵泽斌,马媛.基于GIS的柠条锦鸡儿(Caragana korshinskii)分布模型[J].中国沙漠,2020,40(5):74-80.
|
36 |
Stanton J C,Pearson R G,Homing N,et al.Combining static and dynamic variables in species distribution models under climate change[J].Methods in Ecology & Evolution,2012,3(2):349-357.
|
37 |
陈新美,雷渊才,张雄清,等.样本量对MaxEnt模型预测物种分布精度和稳定性的影响[J].林业科学,2012,48(1):53-59.
|
38 |
郭彦龙,李新,赵泽芳,等.黑河流域胡杨适宜生境分布模拟[J].中国科学:地球科学,2019,49(3):537-553.
|