Effects of salinity and temperature on tuber sprouting and growth of Schoenoplectus nipponicus
|
论文题目: |
Effects of salinity and temperature on tuber sprouting and growth of Schoenoplectus nipponicus |
|
英文论文题目: |
Effects of salinity and temperature on tuber sprouting and growth of Schoenoplectus nipponicus |
|
第一作者: |
Tang, Haoran |
|
英文第一作者: |
Tang, Haoran |
|
联系作者: |
娄彦景 |
|
英文联系作者: |
louyanjing |
|
发表年度: |
2021 |
|
卷: |
12 |
|
期: |
3 |
|
摘要: |
In a scenario of climate change and intensive land-use change, the issue of salt marsh degradation caused by global warming and soil salinization is becoming more serious. A climate chamber experiment was conducted to examine the responses of tuber sprouting and seedling growth of Schoenoplectus nipponicus to variations in the temperature regimes (20/10, 25/15, 30/20 and 35/25 degrees C; 12-h light/dark 12-h photoperiod) and different salt concentrations (0, 50, 75, and 100 mmol/L salinity). Results showed that the final sprouting percentage decreased with the increase in salinity and increased with the rising temperature. Salinity lower than 50 mmol/L was the most favorable for tuber sprouting. Under high salinity (75 and 100 mmol/L salinity), the inhibition of tuber sprouting at 20/10 degrees C was greater than other temperature regimes. Along the temperature gradients, both plant height and leaf N content increased, and root length decreased under non-saline-alkali conditions, while plant height, leaf N content, and root length declined significantly under salt stress (50, 75, and 100 mmol/L salinity). With the increase in temperature, the production of tubers under the control treatments was enhanced significantly, but that under salt stress declined significantly. Under 0 mmol/L salinity, the accumulation of biomass in various organs increased with rising temperature. Biomass accumulation increased first and then declined for plants grown under salt stress, with a peak value of 25/15 degrees C. Root: shoot ratio was reduced significantly under the combination of high salt stress (75 and 100 mmol/L salinity) and high temperatures (30/20 degrees C and 35/25 degrees C). Our study will contribute to a better understanding of the influence of climate warming and increasing serious human disturbances on this important wetland species. |
|
英文摘要: |
In a scenario of climate change and intensive land-use change, the issue of salt marsh degradation caused by global warming and soil salinization is becoming more serious. A climate chamber experiment was conducted to examine the responses of tuber sprouting and seedling growth of Schoenoplectus nipponicus to variations in the temperature regimes (20/10, 25/15, 30/20 and 35/25 degrees C; 12-h light/dark 12-h photoperiod) and different salt concentrations (0, 50, 75, and 100 mmol/L salinity). Results showed that the final sprouting percentage decreased with the increase in salinity and increased with the rising temperature. Salinity lower than 50 mmol/L was the most favorable for tuber sprouting. Under high salinity (75 and 100 mmol/L salinity), the inhibition of tuber sprouting at 20/10 degrees C was greater than other temperature regimes. Along the temperature gradients, both plant height and leaf N content increased, and root length decreased under non-saline-alkali conditions, while plant height, leaf N content, and root length declined significantly under salt stress (50, 75, and 100 mmol/L salinity). With the increase in temperature, the production of tubers under the control treatments was enhanced significantly, but that under salt stress declined significantly. Under 0 mmol/L salinity, the accumulation of biomass in various organs increased with rising temperature. Biomass accumulation increased first and then declined for plants grown under salt stress, with a peak value of 25/15 degrees C. Root: shoot ratio was reduced significantly under the combination of high salt stress (75 and 100 mmol/L salinity) and high temperatures (30/20 degrees C and 35/25 degrees C). Our study will contribute to a better understanding of the influence of climate warming and increasing serious human disturbances on this important wetland species. |
|
刊物名称: |
Ecosphere |
|
英文刊物名称: |
Ecosphere |
|
参与作者: |
H. Tang, J. Bai, F. Chen, Y. Liu and Y. Lou |
|
英文参与作者: |
H. Tang, J. Bai, F. Chen, Y. Liu and Y. Lou |
附件下载: