[1] 地方攻关项目课题，“退化草地繁殖体共性促进剂和物种复配补播多样性提升技术研究”（2023.01-2025.12），课题负责人

[2] 国家重点研发计划子课题，“退化草地多物种复配建植激发技术”（2022.09-2026.08），子课题负责人

[3] 地方攻关项目子课题，“区域草地生态生产双升技术”（2021.06-2024.12），子课题负责人

代表性论文专著：

[1] Hou LY, Bai, WM, Zhang, QQ, Liu YH, Sun HL, Luo YL, Song SH, Zhang WH*. 2022. A new model of two-sown regime for oat forage production in an alpine region of northern China. Environment Science and Pollution Research, 29: 70520-70531.

[2] Li LH, Xin XP, Tang HJ, Hou LY*. 2022. China’s meadow grasslands: challenges and opportunities. Plant and Soil, 473: 1-8.

[3] Bai R, Hou LY, Zhang WH, Ge AH, Luo YL, Bai WM*. 2022. The prokaryotic and fungal communities of oat rhizosphere responded contrastingly to different irrigation regimes at pre- and post-anthesis stages. Applied Soil Ecology, 176: 104490.

[4] Bai R, Zhou M, Guo YM, Sheng J, Yuan YJ, Li QM, Hou LY, Bai WM*. 2022. Long-term mowing reinforces connections between soil microbial and plant communities in a temperate steppe. Plant and Soil, 491: 177-190.

[5] Hou LY, Bai WM*, Zhang QQ, Jiao SC, Tang GB, Luo YL, Bai R, Song SH, Zhang WH*. 2021. Agronomic and economical characterizations of a two-harvest regime for oat forage in cold regions of Northern China. Environment Science and Pollution Research, 28: 68804-68816. 

[6] Li Y, Hou LY, Yang LY, Yue M*. 2021. Transgenerational effect alters the interspecific competition between two dominant species in a temperate steppe. Ecology and Evolution. 11: 1175-1186

[7] Ou CM, Wang MY, Hou LY, Zhang YY, Sun, M, Sun SJ, Jia, SG, Mao PS*. 2021. Responses of seed yield components to the field practices for regulating seed yield of Smooth Bromegrass (Bromus inermis Leyss.). Agriculture, 11: 940.

[8] Zhang LH, Yuan FH, Bai JH, Duan HT, Gu XY, Hou LY, Huang Y, Yang MA, He JS, Zhang ZH, Yu LJ, Song CC, Lipson DA, Zona D, Oechel W, Janssens IA, Xu XF*. 2020. Phosphorus alleviation of nitrogen-suppressed methane sink in global grasslands. Ecology Letters, 23: 821-830.

[9] Liu W, Yuan WP, Xu ST, Shao CL, Hou LY, Xu WF, Shi HQ, Pan QM, Li LH*, Kardol, P. 2020. Spatiotemporal patterns and drivers of methane uptake across a climate transect in inner mongolia steppe. Science of the Total Environment, 757: 143768.

[10] Hou LY, Wang MY, Wang H, Zhang WH, Mao PS*. 2019. Physiological and proteomic analyses for seed dormancy and release in the perennial grass of Leymus chinensis. Environmental and Experimental Botany, 162: 95-102.

[11] Yang J, Hou LY, Bai WM*, Yan JY, Hao JX, Luo YL, Zhang JM, Zhang WH. 2019. A dual-purpose model for spring-sown oats in cold regions of northern China. Agronomy-Basel, 9: 721.

[12] Li Y, Hou LY, Song B, Wan SQ, Sun XQ, Li LH. 2019. Seasonal distribution of increased precipitation in maternal environments influences offspring performance of Potentilla tanacetifolia in a temperate steppe ecosystem. Journal of Plant Ecology, 12: 742-750.

[13] Hou LY, Li Y, Shi HQ, Tian DS, Wang BX, Li LH*, Zhang LH*. 2018. Moderate grazing has little effect on global warming potential in the temperate steppes of northern China. Atmospheric environment, 2018, 190: 342-348.

[14] Wang MY, Wang H, Hou LY, Zhu Y, Zhang Q, Chen LL, Mao PS*.2018. Development of a critical nitrogen dilution curve of Siberian wildrye for seed production, Field Crops Research, 219: 250–255.

[15] Wang MY, Hou LY., Zhu Y, Zhang Q, Wang H, Xia F, Chen LL, Mao PS*, Hannaway DB. 2018. Siberian wildrye seed yield limited by assimilate source. Field Crops Research, 218, 18-23.

[16] Liu W, Lü XT, Xu WF, Shi HQ, Hou LY, Li LH, Yuan WP*. 2018. Effects of water and nitrogen addition on ecosystem respiration across three types of steppe: the role of plant and microbial biomass. Science of the Total Environment, 619-620: 103-111.

[17] Wang MY, Hou LY, Zhang Q, Yu XN, Zhao L, Lu JX, Mao PS*, Hannaway DB. 2017. Influence of row spacing and p and n applications on seed yield components and seed yield of siberian wildrye (Elymus sibiricus L.). Crop Science, 57: 2205-2212.

[18] Shi HQ, Hou LY, Yang LY, Wu DX, Zhang LH, Li LH. 2017. Effects of grazing on CO₂, CH₄, and N₂O fluxes in three temperate steppe ecosystems. Ecosphere, 8: e01760.

[19] Li Y, Hou LY, Song B, Yang LY, Li LH. 2017. Effects of increased nitrogen and phosphorus deposition on offspring performance of two dominant species in a temperate steppe ecosystem, Scientific reports, 7: 40951.

[20] Hou LY, Liu Y, Du JC, Wang MY, Wang H, Mao PS*. 2016. Grazing effects on ecosystem CO₂ fluxes differ among temperate steppe types in Eurasia. Scientific Reports, 6: 29028.

[21] Wang H, Hou LY, Wang MY, Mao PS*. 2016. Contribution of pod wall to seed grain filling in alfalfa, Scientific reports, 6:26586.

[22] Liu Yan, Hou LY, Li QM, Jiang ZP, Gao WD, Zhu Y, Zhang HB. 2017. Effects of Ge-132 and GeO₂ on seed germination and seedling growth of Oenothera biennis L. under NaCl stress, Environmental Technology, 38: 85-93.

[23] Zhang LH, Hou LY, Guo DF, Li LH Xu XF. 2016. Interactive impacts of nitrogen input and water amendment on growing season fluxes of CO₂, CH₄, and N₂O in a semiarid grassland, Northern China. Science of the Total Environment, 578: 523-534.

[24] Xu WF, Li XL, Liu W, Li LH, Hou LY, Shi HQ, Xia JZ, Liu D, Zhang HC, Chen Y, Cai WW, Fu Y, Yuan WP*. 2016. Spatial patterns of soil and ecosystem respiration regulated by biological and environmental variables along a precipitation gradient in semi-arid grasslands in China. Ecological Research, 31: 505-513.

[25] Chen LL, Chen QZ, Zhu YQ, Hou LY, Mao PS*. 2016. Proteomic identification of differentially expressed proteins during alfalfa (Medicago sativa L.) flower development. Frontiers in Plant Science, 7: 1502.

[26] Liu Y, Hou LY, Li QM*, Jiang ZP, Liu D, Zhu Y. 2016. The effects of exogenous antioxidant germanium (Ge) on germination and growth of Lycium ruthenicum Murr seedlings subjected to NaCl stress. Environmental Technology, 37: 909-919.

[27] Liu Y, Hou LY, Li QM*. 2015. Effects of different mechanical treatments on Quercus variabilis, Q. wutaishanica and Q. roburacorn acorn germination. iForest, 8: 728-734.  

[28] Li XL, Shi HQ, Xu WF, Liu W, Wang XJ, Hou LY, Feng F, Yuan WP, Li LH, Xu H. 2015. Seasonal and spatial variations of bulk nitrogen deposition and the impacts on the carbon cycle in the arid/semiarid grassland of Inner Mongolia, China. PLoS One, 10: e0144689.

[29] Wang B, Hou LY, Liu W, Wang ZP. 2013. Non-microbial methane emissions from soils. Atmospheric Environment, 80: 290-298.

[30] Wang ZP, Han XG, Chang SX, Wang B, Yu Q, Hou LY, Li LH. 2013. Soil organic and inorganic carbon contents under various land uses across a transect of continental steppes in Inner Mongolia. Catena, 109: 110-117.

[31] Hou LY, Wang ZP, Wang JM, Wang B, Zhou SB, Li LH. 2012. Growing season in situ uptake of atmospheric methane by desert soils in a semiarid region of northwestern China. Geoderma,190: 415-422.

[32] Liu Y, Liu GQ, Li QM, Liu Y, Hou LY, Li GL. 2012. Influence of pericarp, cotyledon and inhibitory substances on sharp tooth oak (Quercus aliena var. acuteserrata) germination. PLoS One, 7: e 47682.

[33] Wang ZP, Xie ZQ, Zhang BC, Hou LY, Zhou YH, Li LH, Han XG. 2011. Aerobic and anaerobic non-microbial methane emissions from plant material. Environmental Science and Technology, 45: 9531–9537.

发明专利：

1.    利用牛尿制作的冰肥及其制备方法和改良草地的方法：ZL201910636727.1

2.    肥料促进剂、肥料组合物和燕麦施肥方法. ZL201910636050.1

3.    一种高纬度寒区苜蓿草光肥调控种植方法. ZL201810140526.8

4.    一种高纬度寒区燕麦草的种植方法. ZL201810140693.2

5.    一种高纬度寒区苜蓿高产光调控种植方法. ZL201810140692.8

6.    干牛粪腐熟诱导剂及改良草地的方法. ZL201910636035.7

7.    一种提高柠条种子萌发及幼苗快速生长的方法. ZL201710413019.2

地方标准：

1.    多品种苜蓿组合种植技术规程. DB15/T 3291-2024

2.    苜蓿人工草地复壮技术规程. DB15/T 3293-2024

3.    饲用燕麦双播双刈技术规程. DB15/T 3294-2024

4.    燕麦和油菜饲草复种双收技术规程. DB15/T 3295-2024

5.    春播燕麦草-籽双收栽培技术规程. DB15/T 2356-2021

6.    多伦扁穗冰草种植技术规程. DB15/T 2357-2021

7.    燕麦多品种组合双刈栽培技术规程. DB15/T 2359-2021

8.    TRCD 草地改良剂恢复天然草地技术规程. DB15/T 1951-2020

9.    高纬度寒冷地区饲用油菜栽培技术规程. DB15/T 1952-2020.

10. 苜蓿人工草地硒肥施用技术规程. DB15/T 1953-2020.