三种类型高寒草地内甘肃马先蒿的光合碳分配

生态学杂志

三种类型高寒草地内甘肃马先蒿的光合碳分配

徐隆华^1,3,姚步青¹,张春辉^1,3,马真¹,王文颖²,王慧春²,周华坤^1*

(¹中国科学院西北高原生物研究所，西宁 810008； ²青海师范大学，西宁 810008； ³中国科学院大学，北京 100049)

出版日期:2016-03-10 发布日期:2016-03-10

Allocation of photosynthetically fixed carbon in Pedicularis kansuensis in three types of alpine grassland.

XU Long-hua^1,3, YAO Bu-qing¹, ZHANG Chun-hui^1,3, MA Zhen¹, WANG Wen-ying², WANG Hui-chun², ZHOU Hua-kun^1*

(¹Northwest Plateau Institute of Biology, Chinese Academy of Sciences, Xining 810008, China; ²Qinghai Normal University, Xining 810008, China; 3University of Chinese Academy of Sciences, Beijing 100049, China)

Online:2016-03-10 Published:2016-03-10

摘要/Abstract

摘要： 基于三江源区果洛州军牧场不同退化程度草地，采用原位¹³CO₂脉冲标记的方法示踪了¹³C在甘肃马先蒿-土壤系统中的转移与分配，探讨了未退化天然草甸、重度退化高寒草甸（黑土滩）与建植5年的人工草地内代表性植物——甘肃马先蒿光合碳的分配情况。结果表明：标记当天，不同类型草地上¹³C固定百分比在39%～71%，说明标记的效率较高且分配差异较大；3种类型草地土壤碳分配比例平均为8.6%，说明光合固定碳在甘肃马先蒿植株-土壤系统的分配与转移速度非常迅速；脉冲标记21 d后，甘肃马先蒿植株δ¹³C值下降，5%～27%的¹³C分配到地下。黑土滩恢复治理为人工草地5年后，甘肃马先蒿固定的光合碳转移到土体中的含量显著增加。甘肃马先蒿对于维持草地群落多样性和稳定性具有一定生态学意义，应根据草地的经济利用特性予以合理灭除。

关键词: 秸秆还田, 土壤养分, 土壤团聚体, 棉花

Abstract: The insitu ¹³CO₂ pulse labeling technique was used to trace the translocation and allocation of ¹³C in Pedicularis kansuensissoil system and assess the dynamic changes of photosynthetically fixed carbon in P. kansuens growing in natural meadow, severely degraded alpine meadow (black beach) and artificial grassland established 5 years in the army ranch of Guoluo Prefecture in the Three Rivers Headwaters region. Results showed that, on the day when carbon was labeled, 39%-71% of the ¹³C was assimilated in the three types of grassland, suggesting that the labeling was in high efficiency and had a great allocation difference. On average, 8.6% of carbon was allocated to soil in the three types of grassland, indicating that the carbon was quickly translocated and allocated unevenly in the P. kansuensissoil system. The δ¹³C values declined in shoots and roots and 5%-27% of the assimilated ^13C was transferred to soil pools after labeling 21 days. The amount of fixed ^13C translocated in soil increased significantly five years after the conversion of “black beach” to artificial grassland. While P. kansuensis has a certain ecological significance for maintaining the diversity and stability of the community, it should be eliminated rationally according to the economic utilization of grassland.

Key words: soil aggregates, cotton, straw-returning, soil nutrient

徐隆华1,3,姚步青1,张春辉1,3,马真1,王文颖2,王慧春2,周华坤1*. 三种类型高寒草地内甘肃马先蒿的光合碳分配[J]. 生态学杂志.

XU Long-hua1,3, YAO Bu-qing1, ZHANG Chun-hui1,3, MA Zhen1, WANG Wen-ying2, WANG Hui-chun2, ZHOU Hua-kun1*. Allocation of photosynthetically fixed carbon in Pedicularis kansuensis in three types of alpine grassland.[J]. cje.

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