Effect of fertilization patterns on the assemblage of weed communities in an upland winter wheat field

doi:10.1093/jpe/rtt018

Abstract

Abstract: Aims Understanding the response of farmland weed community assembly to fertilization is important for designing better nutrient management strategies in integrated farmland ecological systems. Many studies have focused on weed characteristics, mainly crop–weed competition responses to fertilization or weed communities alone. However, weed community assembly in association with crop growth is poorly understood in the agroecosystems, but is important for the determination of integrated weed management. Biodiversity promotes ecosystem productivity in the grassland, but whether it applies to the agroecosystems is unclear. Based on an 11-year field experiment, the cumulative effects of different fertilization patterns on the floristic composition and species diversity of farmland weed communities along with wheat growth in a winter wheat–soybean rotation were investigated.
Methods The field trial included five fertilization patterns with different combinations of N, P and K fertilizers. Species composition and diversity of weed communities, aboveground plant biomass and nutrient accumulation of weeds and winter wheat, light penetration to the ground surface and wheat yield were measured at each plot in 2009 and 2010. Multivariate analysis, regression and analysis of variance were used to analyze the responses of these parameters to the different fertilization treatments.
Important findings Four dominant weeds (Galium aparine L., Veronica persica Poir., Vicia sativa L. and Geranium carolinianum L.) accounted for ~90% of the total weed density in the 2 years of experimental duration. The residual weed community assembly was influenced primarily by topsoil available nutrients in the order P> N> K. Competition for nutrients and solar radiation between crops and weeds was the main indirect effect of fertilization on the changes in weed community composition and species diversity. The indices of species diversity (species richness, Shannon–Wiener, Pielou and Simpson indices) showed significant linear relationships with wheat yield. The balanced fertilization treatment was more efficient at inhibiting the potential growth of weeds because of solar radiation being intercepted by wheat. These results support the conclusion that wheat yield is favored by balanced fertilization, whereas the weed community is favored by PK fertilization in terms of density and diversity. However, the negative effects on wheat yield may be compromised by simultaneous positive effects of weed communities in the fertilization treatments, for instance, the NP and NK treatments, which are intermediate in terms of increasing wheat production and to a level maintaining a diverse community.

Key words: species diversity, solar radiation, nutrient accumulation, weed communities, fertilization

摘要：
Aims Understanding the response of farmland weed community assembly to fertilization is important for designing better nutrient management strategies in integrated farmland ecological systems. Many studies have focused on weed characteristics, mainly crop–weed competition responses to fertilization or weed communities alone. However, weed community assembly in association with crop growth is poorly understood in the agroecosystems, but is important for the determination of integrated weed management. Biodiversity promotes ecosystem productivity in the grassland, but whether it applies to the agroecosystems is unclear. Based on an 11-year field experiment, the cumulative effects of different fertilization patterns on the floristic composition and species diversity of farmland weed communities along with wheat growth in a winter wheat–soybean rotation were investigated.
Methods The field trial included five fertilization patterns with different combinations of N, P and K fertilizers. Species composition and diversity of weed communities, aboveground plant biomass and nutrient accumulation of weeds and winter wheat, light penetration to the ground surface and wheat yield were measured at each plot in 2009 and 2010. Multivariate analysis, regression and analysis of variance were used to analyze the responses of these parameters to the different fertilization treatments.
Important findings Four dominant weeds (Galium aparine L., Veronica persica Poir., Vicia sativa L. and Geranium carolinianum L.) accounted for ~90% of the total weed density in the 2 years of experimental duration. The residual weed community assembly was influenced primarily by topsoil available nutrients in the order P> N> K. Competition for nutrients and solar radiation between crops and weeds was the main indirect effect of fertilization on the changes in weed community composition and species diversity. The indices of species diversity (species richness, Shannon–Wiener, Pielou and Simpson indices) showed significant linear relationships with wheat yield. The balanced fertilization treatment was more efficient at inhibiting the potential growth of weeds because of solar radiation being intercepted by wheat. These results support the conclusion that wheat yield is favored by balanced fertilization, whereas the weed community is favored by PK fertilization in terms of density and diversity. However, the negative effects on wheat yield may be compromised by simultaneous positive effects of weed communities in the fertilization treatments, for instance, the NP and NK treatments, which are intermediate in terms of increasing wheat production and to a level maintaining a diverse community.

Leilei Tang, Kaiyuan Wan, Chuanpeng Cheng, Ruhai Li, Daozhong Wang, Junfeng Pan, Yong Tao, Juan Xie, Fang Chen. Effect of fertilization patterns on the assemblage of weed communities in an upland winter wheat field[J]. J Plant Ecol, 2014, 7(1): 39-50.

[1]	Lloyd W. Morrison, Sherry A. Leis, Michael D. DeBacker. Observer error in grassland vegetation surveys: effects on species diversity metrics and species-abundance relationships [J]. J Plant Ecol, 2023, 16(4): 0-rtad002.
[2]	Taiki Mori, Senhao Wang, Cong Wang, Ji Chen, Cheng Peng, Mianhai Zheng, Juan Huang, Faming Wang, Zhanfeng Liu, Jiangming Mo, Wei Zhang. Effects of long-term phosphorus addition on soil ratios of phosphomonoesterase to phosphodiesterase in three tropical forests [J]. J Plant Ecol, 2023, 16(3): 0-rtac091.
[3]	Rebekka Gerlach, Constanze Buhk, Jens Schirmel, Hermann F. Jungkunst. Exploration of the response of soil properties and plant species composition to centuries-old traditional meadow irrigation [J]. J Plant Ecol, 2023, 16(2): 0-.
[4]	Cindy Q. Tang, Xia Lu, Min-Rui Du, Shu-Li Xiao, Shuaifeng Li, Peng-Bin Han, Jia-Le Zeng, Jian-Ran Wen, Shi-Qian Yao, You-Cai Shi, Yun-Fang Li, Ming-Chun Peng, Chong-Yun Wang and Zhi-Ying Zhang. Forest characteristics and population structure of a threatened palm tree Caryota obtusa in the karst forest ecosystem of Yunnan, China [J]. J Plant Ecol, 2022, 15(4): 829-843.
[5]	Qian Guo, Zhongming Wen, Cheng Zheng, Wei Li, Yongming Fan and Duoju Zhu. Effects of Robinia pseudoacacia on the undergrowth of herbaceous plants and soil properties in the Loess Plateau of China [J]. J Plant Ecol, 2021, 14(5): 896-910.
[6]	Jinliang Liu, Yuchen Zhong, Lei Zhong, Boliang Wei, Shilu Zheng, Yuchu Xie, Yi Jin and Mingjian Yu. The asymmetric relationships of the distribution of conspecific saplings and adults in forest fragments [J]. J Plant Ecol, 2020, 13(4): 398-404.
[7]	Di Wang, Yi-Ran Zhang, Yu-Long Feng, Zhi Liu and Bo Qu. Changes in vegetation and soil properties following 6 years of enclosure in riparian corridors [J]. J Plant Ecol, 2020, 13(2): 131-138.
[8]	Bobbymoore Konsam, Shyam S. Phartyal and Nagendra P. Todaria. Impact of forest fire on soil seed bank composition in Himalayan Chir pine forest [J]. J Plant Ecol, 2020, 13(2): 177-184.
[9]	Kangho Jung, Jin-Hyeob Kwak, Frank S. Gilliam, Scott X. Chang. Simulated N and S deposition affected soil chemistry and understory plant communities in a boreal forest in western Canada [J]. J Plant Ecol, 2018, 11(4): 511-523.
[10]	Xian-Feng Jiang, Xing-Fu Zhu, Ling-Ling Chen, Qing-Jun Li. What ecological factors favor the shift from distyly to homostyly? A study from the perspective of reproductive assurance [J]. J Plant Ecol, 2018, 11(4): 645-655.
[11]	Quentin D. Read, Jeremiah A. Henning, Aimée T. Classen, Nathan J. Sanders. Aboveground resilience to species loss but belowground resistance to nitrogen addition in a montane plant community [J]. J Plant Ecol, 2018, 11(3): 351-363.
[12]	M. Noelia Barrios-Garcia, Mariano A. Rodriguez-Cabal, Jennifer A. Rudgers, Gregory M. Crutsinger. Soil fertilization does not alter plant architectural effects on arthropod communities [J]. J Plant Ecol, 2017, 10(5): 800-807.
[13]	Wei Li, Jie Zhao, Howard E. Epstein, Guanghua Jing, Jimin Cheng, Guozhen Du. Community-level trait responses and intra-specific trait variability play important roles in driving community productivity in an alpine meadow on the Tibetan Plateau [J]. J Plant Ecol, 2017, 10(4): 592-600.
[14]	Valentin H. Klaus, Deborah Schäfer, Till Kleinebecker, Markus Fischer, Daniel Prati, Norbert Hölzel. Enriching plant diversity in grasslands by large-scale experimental sward disturbance and seed addition along gradients of land-use intensity [J]. J Plant Ecol, 2017, 10(4): 581-591.
[15]	Tan-Feng Yin, Li-Li Zheng, Guang-Min Cao, Ming-Hua Song, Fei-Hai Yu. Species-specific phenological responses to long-term nitrogen fertilization in an alpine meadow [J]. J Plant Ecol, 2017, 10(2): 301-309.