1. 国家重点研发计划课题“生态茶园省力化高效施肥技术研发” 2021.12-2026.11（子课题负责）

2. 中德合作项目“多组学联合分析挖掘茶树生物学潜力” 2022.01-2022.12（主持）

3. 国家自然科学基金青年项目“调控玉米叶绿体锰与光合系统功能关键基因的克隆与鉴定” 2019.01-2021.12（主持）

4. 浙江省自然科学基金面上项目“茶树高效利用磷的根际过程及其调控机制” 2023.01-2025.12 （主持）

 代表性论文

  1. Wang J, Guo L, Yang F, Xiang J, Long L*, Ni K*. Nanoparticles of Zinc Oxides Mitigated N2O Emissions in Tea Plantation Soil. Agronomy.2024; 14(6):1113. 

  2. Zhang W, Ni K, LongL* and Ruan J*. Nitrogen transport and assimilation in tea plant (Camellia sinensis): a review. Frontiers in Plant Science, 2023; 14:1249202

  3. Yang H#, Ji L#,Long L*,Ni K, Yang X, Ma L, Guo S*, Ruan J. Effect of short-term phosphorus supply on rhizosphere microbial community of tea plants. Agronomy. 2022, 12(10):2405

  4. KC S^#, Long L^#, Zhang Q, Ni K, Ma L, Ruan J*. Effect of interactions between phosphorus and light intensity onmetabolite compositions in tea cultivar Longjing43. International Journal of Molecular Sciences, 2022, 23(23):15194

   5. Long L, Shi Y, Ma L & Ruan J*.Characterization of young shoot population, yield, and nitrogen demands of tea (Camellia sinensis L.) harvested under different standards. Horticulturae. 2022, 8(4): 275

   6. KC S#, Long L#, Liu M, Zhang Q & RuanJ*. Light intensity modulates the effect of phosphate limitation on carbohydrates, amino acids, and catechins in tea plants (Camellia sinensis L.). Frontiers in Plant Science. 2021,12:743781

   7. Long L, Kristensen RK, Chen F, Guo J,Pedas PR, Zhang G, Schjoerring JK* & Yuan L*. Assessing the variation in traits for manganese deficiency tolerance among maize genotypes. Environmental and Experimental Botany. 2021, 183,104344

    8. Long L, Pedas PR, Kristensen RK, Schulze WX, Husted S, Zhang G, Schjoerring JK* & Yuan L*. High light intensity aggravates latent manganese deficiency in maize. Journal of Experimental Botany.2020, 71(19): 6116–6127

    9. Long L, Ma X, Ye L, Zeng J, Chen G& Zhang G*. Root plasticity and Pi recycling within plants contribute to low-P tolerance in Tibetan wild barley. BMC Plant Biology. 2019, 19, 341

   10. Long L, Persson D, Duan F, Yuan L, Jørgensen K, Schjoerring JK*& Pedas PR*. The iron-regulated transporter 1 plays an essential role in uptake, translocation and grain-loading of manganese, but not iron, in barley. New Phytologist. 2018, 217(4):1640-1653

其他论文

    11. Guo J, Long L, Chen A, Dong X, Liu Z,Chen L, Wang J, Yuan L*, Tonoplast-localized transporter ZmNRAMP2 confers root-to-shoot translocation of manganese in maize. Plant Physiology. 2022, kiac434

    12. Shao Q, Zhang Y, Liu Z, Long L, Liu Z, Chen Y, Hu X, Lu M, HuangL*. Phosphorus and nitrogen recovery from wastewater by ceramsite: adsorption mechanism, plant cultivation and sustainability analysis. Science of The Total Environment. 2022, 805: 150288

    13. Ye Z, Zeng J, Ye L, Long L, Zhang G*, Genome-wide association analysis of potassium uptake and translocation rates under low K stress in Tibetan wild barley. Euphytica. 2020, 216, 35.

    14. Ye L^#, Wang Y^#, Long L, Luo H, Shen Q, Broughton S, Wu D, Shu X, Dai F, Li C, Zhang G*, A trypsin family protein gene controls tillering and leaf shape in barley. Plant Physiology. 2019, 181 (2) : 701-713

    15. Gu R^#, Chen F^#, Long L, Cai H, Liu Z, Yang J, Wang L, Li H, Li J, Liu W, Mi G, Zhang F, Yuan L*,Enhancing phosphorus uptake efficiency through QTLs-based selection for root system architecture in maize. Journal of Genetics and Genomics. 2016, 43(11) : 663-672