期刊论文

Effect of Water Management on Rice Growth and Rhizosphere Priming Effect in Paddy Soils

Li, Ke-Lin(csfuklli@163.com);Zhu, Zhen-Ke(zhuzhenke@isa.ac.cn)

中文

环境科学

0250-3301

2021

42

2

988-995

10.13227/j.hjkx.202007177

国家自然科学基金项目（41761134095,41877104,41771337）；

本校为第一机构

作物根际沉积碳输入而引起的根际激发效应,对农田土壤碳排放通量和碳平衡起到关键的调控作用.在稻田生态系统中,由于频繁的干湿交替,土壤CO2和CH4排放以及根际激发效应明显有别于其他自然生态系统.因此,明确稻田生态系统干湿交替过程中水稻根际激发效应的方向与强度,对于减缓稻田温室气体排放具有重要意义.本研究采用13C-CO2连续标记法,结合盆栽试验,研究干湿交替和持续淹水条件下,水稻生长以及根际激发效应的响应特征.结果表明,相对于持续淹水处理,干湿交替处理使水稻地上部和根系生物量以及根冠比显著提高,并增加了土壤微生物生物量.持续淹水条件下,13CO2和13CH4排放通量随水稻生长由10.2μg·...

The rhizosphere priming effect (RPE) caused by carbon inputs from crop rhizodeposits plays a key role in regulating the carbon emission flux and carbon balance of farmland soils. Due to frequent alternations between dry and wet conditions, CO2 and CH4 emissions and the RPE in paddy field ecosystems are significantly different to those of other ecosystems. Therefore, it is of great significance to determine the direction and intensity of the rice RPE under alternations of dry and wet to limit greenhouse gas emissions. In this study, using a 13C-...