Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant

doi:10.1093/jpe/rtt021

J Plant Ecol ›› 2013, Vol. 6 ›› Issue (6): 499-505 .DOI: 10.1093/jpe/rtt021

• Research Articles • Previous Articles Next Articles

Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant

Fan Liu^1,2, Wen ying Wu^1,2, Tao Wan^3,4, Qing feng Wang^1,2, Yu Cheng^1,2 and Wei Li^1,2,*

¹ Key Laboratory of Aquatic Botany and Watershed Ecology, Chinese Academy of Sciences, Wuhan, Hubei 430074, China; ² Hubei Key Laboratory of Wetland Evolution and Ecological Restoration, Wuhan Botanical Garden, The Chinese Academy of Sciences, Wuhan, Hubei. 430074, China; ³ Key Laboratory of Southern Subtropical Plant Diversity, Fairylake Botanical Garden, Shenzhen & Chinese Academy of Science, Shenzhen, Guangdong 518004, China; ⁴ Shenzhen Key Laboratory of Technologies for Industrial Water Conservation & Municipal Wastewater Resources, Shenzhen, Guangdong Province 518055, China

Received:2013-01-04 Accepted:2013-03-26 Published:2013-11-21
Contact: Liu, Fan

Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant

Abstract

Abstract: Aims Adaptive plasticity of biomass allocation to different environmental stressors enables plants to maintain functional relationships among reproductive structures. In freshwater systems, water depth and nutrient content of sediments can have a major effect on biomass allocation in aquatic macrophytes. However, the relative importance of these two stressors is unknown as it is the temporal variation of biomass allocation to the stressors during the growing period. This information may be critical for understanding the tolerance of a plant to environmental conditions.
Methods Here, we used four levels of environmental stressors generated by deep and shallow water and high or low sediment nutrient content in a factorial experiment to investigate the biomass allocation responses of a floating macrophyte, Trapella sinensis, during the growing period.
Important findings The results showed that the lower sediment nutrient content inhibited biomass increase, whereas the lower water depth increased the sexual reproduction of the plants. The lower sediment content also led to a delay in flowering and compensated trade-offs among sexual reproduction and elongation and clonal reproduction during the growing period. These results indicated that water depth affected the ratio of biomass allocation, whereas the sediment nutrient content affected biomass accumulation when the plants faced these two environmental factors simultaneously. The temporal changes in allocation under lower sediment nutrient content underscored the importance of collecting data at different stages of growth when trying to interpret resource allocation, especially in resource-limited environments.

Key words: growing period, resource allocation, water depth, sediment type

摘要：
Aims Adaptive plasticity of biomass allocation to different environmental stressors enables plants to maintain functional relationships among reproductive structures. In freshwater systems, water depth and nutrient content of sediments can have a major effect on biomass allocation in aquatic macrophytes. However, the relative importance of these two stressors is unknown as it is the temporal variation of biomass allocation to the stressors during the growing period. This information may be critical for understanding the tolerance of a plant to environmental conditions.
Methods Here, we used four levels of environmental stressors generated by deep and shallow water and high or low sediment nutrient content in a factorial experiment to investigate the biomass allocation responses of a floating macrophyte, Trapella sinensis, during the growing period.
Important findings The results showed that the lower sediment nutrient content inhibited biomass increase, whereas the lower water depth increased the sexual reproduction of the plants. The lower sediment content also led to a delay in flowering and compensated trade-offs among sexual reproduction and elongation and clonal reproduction during the growing period. These results indicated that water depth affected the ratio of biomass allocation, whereas the sediment nutrient content affected biomass accumulation when the plants faced these two environmental factors simultaneously. The temporal changes in allocation under lower sediment nutrient content underscored the importance of collecting data at different stages of growth when trying to interpret resource allocation, especially in resource-limited environments.

Fan Liu, Wen ying Wu, Tao Wan, Qing feng Wang, Yu Cheng, Wei Li. Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant[J]. J Plant Ecol, 2013, 6(6): 499-505.

[1]	Renfei Chen, Cenxi Shi, Liang Zhang, Chengyi Tu, Jacob Weiner. Potential role of kin selection in the transition from vegetative to reproductive allocation in plants [J]. J Plant Ecol, 2023, 16(6): 0-rtad025.
[2]	Li Zhu, Jun Xiang, Da-Yong Zhang, Wei Wang, Shuang-Guo Zhu, Bao-Zhong Wang, Li-Yuan Yang, Meng-Ying Li, You-Cai Xiong. Does a tragedy of the commons due to individual competition arise from genetically fixed traits or plastic traits in dryland wheat? An experimental verification [J]. J Plant Ecol, 2023, 16(4): 0-rtad004.
[3]	Yin Wang, Jianming Wang, Xiaolin Wang, Yicheng He, Guanjun Li and Jingwen Li. Dominant roles but distinct effects of groundwater depth on regulating leaf and fine-root N, P and N:P ratios of plant communities [J]. J Plant Ecol, 2021, 14(6): 1158-1174.
[4]	Yong Zeng, Chengyi Zhao, Jun Li, Yan Li, Guanghui Lv and Tong Liu. Effect of groundwater depth on riparian plant diversity along riverside-desert gradients in the Tarim River [J]. J Plant Ecol, 2019, 12(3): 564-573.
[5]	Fang-Li Luo, Xing-Xing Jiang, Hong-Li Li, Fei-Hai Yu. Does hydrological fluctuation alter impacts of species richness on biomass in wetland plant communities? [J]. J Plant Ecol, 2016, 9(4): 434-441.
[6]	Weiwei Xu, Weiping Hu, Jiancai Deng, Jinge Zhu, Qinqin Li. How do water depth and harvest intensity affect the growth and reproduction of Elodea nuttallii (Planch.) St. John? [J]. J Plant Ecol, 2016, 9(2): 212-223.
[7]	Hagai Shemesh, Uri Ben-Yosef, Stav Livne, Ofer Ovadia. The effects of temporal variation in soil carbon inputs on resource allocation in an annual plant [J]. J Plant Ecol, 2016, 9(1): 30-39.
[8]	Shujuan Zhang, Li Wang, Fang Ma, Keith J. Bloomfield, Jixian Yang, Owen K. Atkin. Is resource allocation and grain yield of rice altered by inoculation with arbuscular mycorrhizal fungi? [J]. J Plant Ecol, 2015, 8(4): 436-448.
[9]	Fernando Pulido, Gerardo Moreno, Eustolia García, José J. Obrador, Raúl Bonal, Mario Díaz. Resource manipulation reveals flexible allocation rules to growth and reproduction in a Mediterranean evergreen oak [J]. J Plant Ecol, 2014, 7(1): 77-85.
[10]	Philip A. Fay, H. Wayne Polley, Virginia L. Jin, Michael J. Aspinwall. Productivity of well-watered Panicum virgatum does not increase with CO₂ enrichment [J]. J Plant Ecol, 2012, 5(4): 366-375.
[11]	Na-Na Xu, Xin Tong, Po-Kueug Eric Tsang, Hong Deng, Xiao-Yong Chen. Effects of water depth on clonal characteristics and biomass allocation of Halophila ovalis (Hydrocharitaceae) [J]. J Plant Ecol, 2011, 4(4): 283-291.

Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant

Temporal variation of resource allocation between sexual and asexual structures in response to nutrient and water stress in a floating-leaved plant

HTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 11

Recommended Articles

Metrics

Comments