1. 国家自然科学基金（面上项目）.尖叶石竹捕光复合物蛋白DsSep2参与叶绿素代谢与叶色调控的分子机制.(32172619).2022.01.01--2025.12.31.经费：59万元,主持(1/8).在研.

2. 国家自然科学基金（青年基金）.尖叶石竹表皮蜡质合成基因的耐旱调控机理研究.(31902052).2020.01.01--2022.12.31.经费：24万元,主持(1/1).在研.

3.黑龙江省自然科学基金(优秀青年基金).表皮蜡质合成基因CER1调控尖叶石竹耐旱性的分子机制研究.(YQ2020C006).2020.07.01--2023.07.01.经费：10万元,主持(1/11).在研.

4.黑龙江省博士后落户科研启动基金.侧金盏花极端低温开花调控分子机制研究. (LBH-Q19004).2020.01.01--2021.12.31.经费：10万元,主持(1/1).在研.

1. Wang D, Zhang HF, Hu XF, Zhang HZ, Feng S*, Zhou AM*. (2024). Cell number regulator 8 from Salix linearistipularis enhances cadmium tolerance in poplar by reducing cadmium uptake and accumulation. Plant Physiology and Biochemistry, 206: 108216. 

2. Wang D#, Chen XW#, Hu XF, Wu J, Tan GY, Feng S, Zhou AM*. (2024). Overexpression of Leymus chinensis vacuole transporter NRAMP2 in rice increases Mn and Cd accumulation. Plant Stress, 11: 100344. 

3. Qiao K#, Shan QH#, Zhang HZ, Lv FL*, Zhou AM*. (2023). Populus euphratica plant cadmium tolerance PePCR3 improves cadmium tolerance. Tree Physiology, 43, 1950-1963. 

4. Ren LL#, Ma HP#, Chao DH, Zhang HZ, Qiao K, Feng S*, Zhou AM*. (2023). Sep2, a light-harvesting complex-like protein, is involved in light stress response by binding to free chlorophylls. Environmental and Experimental Botany, 213, 105429. 

5. Hu XF#, Wang D#, Ren S, Feng S, Zhang HZ, Zhang JZ, Qiao K*, Zhou AM*. (2022). Inhibition of root growth by alkaline salts due to disturbed ion transport and accumulation in Leymus chinensis. Environmental and Experimental Botany, 200, 104907. 

6. Hu XF#, Shunan Wang SN#, Zhang HF, Zhang HZ, Feng S, Qiao K, Lv FL, Gong SF*, Zhou AM*. (2022). Plant cadmium resistance 6 from Salix linearistipularis (SlPCR6) affects cadmium and copper uptake in roots of transgenic Populus. Ecotoxicology and Environmental Safety, 245: 114116. 

7. Wang MQ#, Zhang HZ#, Dai SY, Feng S, Gong SF, Wang JG*, Zhou AM*. (2022). AaZFP3, a novel CCCH-type zinc finger protein from Adonis amurensis, promotes early flowering in Arabidopsis by regulating the expression of flowering-related genes. International Journal of Molecular Sciences, 23, 8166. 

8. Zhang X, Wang JG, Feng S, Yu XH*, Zhou AM*. (2022). Morphological and physiological responses of Dianthus spiculifolius high wax mutant to low-temperature stress. Journal of Plant Physiology, 275: 153762. 

9. Zhang HZ#, Wan ZY#, Liu JH, Hu XF, Ren LL, Feng S, Qiao K, Wang JG, Zhou AM*. (2022). DsCER26 affects the leaf dehydration tolerance of rice by altering cuticular wax alkane production without affecting the grain fatty acid content. ACS Agricultural Science & Technology, 2, 813-822. 

10. Wan ZY#, Zhang HZ#, Ren LL, Zhang HF, Feng S, Wang JG, Zhou AM*. (2022). Tubular epicuticular wax is an important trait for limiting nonstomatal water loss from leaves in several Dianthus species. Ornamental Plant Research, 2:15. 

一种拟南芥捕光色素结合蛋白AtSep2基因及其应用、蛋白质、重组载体和方法（ZL 2023 1 0044109.4）