2023年科研论文发表：

[26] 颜廷雨,汪梦婷,唐军荣等. N、P配施对平茬后云南松N、P、K含量及氮磷比的影响 [J]. 西北农业学报, 2023, 32 (12): 1987-1998.

[25] Mu D, Chen L, Hua G, et al. Diversity and Recruitment Strategies of Rhizosphere Microbial Communities by Camellia fascicularis, a Plant Species with Extremely Small Populations in China: Plant Recruits Special Microorganisms to Get Benefit out of Them[J]. Diversity 2023, 15, 1170.

[24]  和滢埝,唐军荣,李亚麒等.外源氮磷添加对云南松苗木生长及根系形态的影响[J].江苏农业科学,2023,51(19):116-124.

[23]  和滢埝,唐军荣,李亚麒等.氮磷添加对云南松苗木生长节律的影响[J].云南农业大学学报(自然科学),2023,38(03):465-475.

[22]  Mu D, Tang J, Cai N, et al. Effects of Microbial Communities on Elevational Gradient Adaptation Strategies of Pinus yunnanensis Franch. and Pinus densata Mast. in a Mixed Zone[J]. Forests, 2023, 14(4): 685.

[21]  王瑜,李亚麒,陈林等. 云南松苗木氮磷施肥效应分析及回归模型的建立 [J]. 河北农业大学学报, 2023, 46 (02): 54-61.

[20]  陆庄跃,杨振欣,郑超凡等. NP配施对平茬后云南松苗木N、P、K化学计量比的影响 [J]. 植物研究, 2023, 43 (02): 218-230.

[19]  蔡年辉,胡兆柳,贺斌等. 云南松苗木萌枝能力对截干高度的响应 [J/OL]. 西北农林科技大学学报(自然科学版), 2024, (04): 1-10.

[18]  李亚麒,陈林,唐军荣等. 施肥对云南松苗木-土壤氮、磷、钾化学计量比的影响 [J/OL]. 西北农林科技大学学报(自然科学版), 2024, (03): 1-11.

[17]  陈诗,母德锦,王瑜等. 全自动间断化学分析仪在苗木氮、磷测定方法中的优良性研究 [J]. 西部林业科学, 2023, 52 (04): 77-82.

[16]  杨振欣,汪梦婷,陆庄跃等. 施氮、磷肥对平茬后云南松苗木生物量积累与分配的影响 [J]. 扬州大学学报(农业与生命科学版), 2023, 44 (04): 128-136.

[15]  陆庄跃,汪梦婷,贺斌等. 云南松苗木N、P、K元素含量间异速生长关系对氮磷添加的响应 [J/OL]. 西北林学院学报, 1-13.

[14]  蔡年辉,胡兆柳,贺斌等. 云南松苗木氮磷钾化学计量比与个体大小间相对关系 [J/OL]. 生态学杂志, 1-10.

[13]  王瑜,李江飞,车凤仙等. 不同季节平茬对云南松苗木萌蘖能力的影响 [J]. 西南林业大学学报(自然科学), 2023, 43 (04): 26-31.

[12]  聂婷,李亚麒,石海涛等. 云南松苗木生物量对不同指标的预估效应 [J]. 西南林业大学学报(自然科学), 2023, 43 (04): 17-25.

[11]  张琳宜,汪梦婷,聂婷等. 云南松苗木萌蘖能力的转录组分析 [J/OL]. 分子植物育种, 1-22.

[10]  张琳宜,曹均,吴裕鹏等. 植物性别分化机制研究进展 [J]. 山东农业科学, 2023, 55 (07): 167-172.

[9]  Du RY, Deng J, Huang EB,et al. Effects of salicylic acid-grafted bamboo hemicellulose on gray mold control in blueberry fruit: The phenylpropanoid pathway and peel microbial community composition [J].International Journal of Biological Macromolecules, 2023,251:126303.

[8]  陈诗,黄键,陈林等. 云南松苗木氮磷钾储量在针叶与单株间转换研究 [J]. 西南农业学报, 2023, 36 (06): 1252-1259.

[7]  黄键,王德新,杨松等. 氮磷叶面喷施对云南松苗木叶绿素含量及其异速生长关系的影响 [J]. 西南林业大学学报(自然科学), 2023, 43 (03): 33-41.

[6]  陈诗,陈林,唐军荣等. 云南松不同等级苗木的生物量分配及其异速生长 [J]. 四川农业大学学报, 2023, 41 (02): 209-216+256.

[5]  郑超凡,周驰宇,贺斌等. 云南松生物量特征与苗木质量指数间相对生长关系的分析 [J]. 山西农业大学学报(自然科学版), 2023, 43 (02): 121-128.

[4]  王瑜,李亚麒,陈林等. 云南松苗木氮磷施肥效应分析及回归模型的建立 [J]. 河北农业大学学报, 2023, 46 (02): 54-61.

[3]  陆庄跃,杨振欣,郑超凡等. NP配施对平茬后云南松苗木N、P、K化学计量比的影响 [J]. 植物研究, 2023, 43 (02): 218-230.

[2] 母德锦,陈林,陈诗等. 云南松糖基转移酶基因PyUGT1和PyUGT2的克隆与表达分析 [J]. 西部林业科学, 2023, 52 (03): 109-117.

[1]  Sun DK, Wang MT, Zhao P, et al. Evaluation of the role of different types of cytokinins as zeatin replacement in in vitro proliferation of Vaccinium dunalianum[J]. Pakistan Journal of Botany, 2023, 55(1):135-130.

2022年以前部分论文：

[1]  Chen L, Yang A, Li Y, et al. Virulence and Host Range of Fungi Associated With the Invasive Plant Ageratina adenophora[J]. Frontiers in Microbiology, 2022, 13:857796.

[2]  Chen L, Zhou J, Zeng T, et al. Quantifying the sharing of foliar fungal pathogens by the invasive plant Ageratina adenophora and its neighbours[J]. New Phytologist, 2020, 227(5):1493-1504.

[3]  Chen L, Fang K, Zhou J, et al. Enrichment of soil rare bacteria in root by an invasive plant Ageratina adenophora[J]. Science of The Total Environment, 2019, 683:202-209.

[4]  Tang JR, Chen G, Lu YC,  et al. Identification of two UDP-glycosyltransferases involved in the main oleanane-type ginsenosides in Panax japonicus var. major[J]. Planta, 2021, 253(5): 91.

[5] Wang MT, Zhang GL, Xin PY,  et al.  In vitro propagation of Camellia fascicularis: a plant species with extremely small populations [J]. Canadian Journal of Plant Science, 2020, 100(2): 202-208.

[6] Tang JR, Lu YC, Gao ZJ, et al.  Comparative transcriptome analysis reveals a gene expression profile that contributes to rhizome swelling in Panax japonicus var. major [J]. Plant Biosystems, 2020, 15(4): 515-523.

[7] 唐军荣,李斌,朱丽娜等. 滇杨多倍体苗期叶片形态及光合生理比较分析 [J]. 林业科学研究, 2016, 29 (01): 103-109.

[8] 许玉兰,蔡年辉,徐杨等. 云南松主分布区天然群体的遗传多样性及保护单元的构建[J]. 林业科学研究, 2015, 28(06): 883-891.

[9] Zhou A, Wang W, Yin J, et al. Antifungal action and induction of resistance by Bacillus sp. strain YYC 155 against Colletotrichum fructicola for control of anthracnose disease in Camellia oleifera[J]. Frontiers in Microbiology, 2022, 13: 956642.

[10] Wang W,  Xiao J, Zhang YZ, et al. Biocontrol ability and action mechanism of Bacillus halotolerans against Botrytis cinerea causing grey mould in postharvest strawberry fruit[J]. Postharvest Biology and Technology. 2021, 174: 111456

[11] Deng J, Li WQ, Ma DT, et al. Synergistic effect of carboxymethylcellulose and Cryptococcus laurentii on suppressing green mould of postharvest grapefruit and its mechanism[J]. International Journal of Biological Macromolecules, 2021, 181: 253-262.

[12] Lu YY, Ma DT, He X, et al. Bacillus subtilis KLBC BS6 induces resistance and defence-related response against Botrytis cinerea in blueberry fruit[J]. Physiological and Molecular Plant Pathology, 2021, 114:101599.

 [13] Deng J,  Kong SS, Wang W, et al. Identification of a new Bacillus sonorensis strain KLBC GS-3 as a biocontrol agent for postharvest green mould in grapefruit[J], Biological Control 2020,151, 104393.