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氮素补充对高寒草甸土壤团聚体有机碳、全氮分布的影响

刘晓东尹国丽武均陈建纲何振刚师尚礼

农业工程学报2015，Vol.31Issue(14)：139-147,9.

农业工程学报2015，Vol.31Issue(14)：139-147,9.DOI:10.11975/j.issn.1002-6819.2015.14.020

氮素补充对高寒草甸土壤团聚体有机碳、全氮分布的影响

Effect of organic carbon and total nitrogen distribution in alpine meadow soil aggregates with different nitrogen addition level

刘晓东 ¹尹国丽 ²武均 ³陈建纲 ¹何振刚 ²师尚礼⁴

作者信息

1. 甘肃农业大学草业学院,兰州 730070
2. 草业生态系统教育部重点实验室,中-美草地畜牧业可持续研究中心,兰州 730070
3. 甘肃省天水市畜牧技术推广站,天水 741000
4. 甘肃农业大学资环学院,兰州 730070
折叠

摘要

Abstract

The alpine meadow, mainly distributed in cold and high altitude region in the Qinghai-Tibetan Plateau, is a grassland ecosystem with the largest area. In the past decade, the grassland and soil ecological environments were degraded continuously, which have been paid high attention by human beings. The reasons of grassland degradation are complex, and from the view of ecology, the degradation is mainly caused by the unbalance of energy flow and material circulation in grassland ecosystem. Grazing together with other human activities, lead to soil nutrient loss with the output of grass and livestock products. Due to the insufficient supply of nutrients, the decline of soil fertility seriously affects the grass growth in pasture, leading to grassland ecosystem health deteriorating. Nitrogen (N) is the main limiting factor of soil nutrient in the alpine meadow. N addition is an important means to maintain the balance of grassland soil nutrient, which in turn can increase soil N content, and stimulate the growth and distribution of aboveground biomass and belowground root system, thereby affecting the soil structure. Soil aggregates are the basic unit of soil structure, while carbon (C) and total N are the most important factors affecting the structure of soil aggregates. Therefore, relying on N addition experiment of 3 consecutive years located in Xiahe County in eastern Qinghai-Tibet Plateau, in order to explore the effects of N addition on the changing process of soil aggregates, organic C and total N, and its impacts on soil structure, the paper attempted to seek methods for maintaining the stability of soil structure in the alpine meadow. The experiment consisted of 4 treatments with different N addition levels: CK (0), LN (50 kg/hm2), MN (100 kg/hm2) and HN (200 kg/hm2), in which the randomized block design was applied and each processing was repeated for 3 times. The result showed that LN, MN and HN treatments improved the content of≥0.25 mm soil aggregate in 0-30 cm, and compared to CK treatment, LN, MN and HN increased by 4.74%, 6.42% and 1.96%, respectively; meanwhile, LN and MN treatments improved the mean weight diameter (MWD), and compared to CK treatment, LN and MN increased by 9.79% and 12.63%, respectively; at the same time, LN and MN improved the contents of the aggregate of≥5 and≥2-5 mm. The results showed that reasonable N addition not only enhanced soil stability but also enabled glued micro-aggregate to form the larger soil aggregate, and MN treatment was the most effective among the 4 treatments, followed by LN. In the 0-30 cm depth, N addition produced the difference in organic C content, and the trend was MN≈LN > CK > HN; and N addition significantly increased the total N content of LN, MN and HN treatments, which trend was MN > LN≈HN > CK. In soil aggregates with different sizes, soil organic C content of <0.25 mm aggregate was the highest, while that of≥0.25-2 mm aggregate was the lowest; the total N content was in the opposite of organic C content, and≥0.25-2 mm aggregate was the highest, while <0.25 mm aggregate was the lowest. The correlation between≥2-5 mm soil aggregate content and their soil organic C content was significantly positive (P<0.05). The correlations between≥5 and≥2-5 mm soil aggregate contents and their total N contents were significantly positive with the correlation coefficient of 0.865 and 0.547, respectively. Therefore, the contributing rates of organic C, total N and aggregate content among soil aggregates with different sizes are the same, which shows that aggregate content of different sizes mainly causes the changing of the contributing rates of organic C and total N. In conclusion, 50-100 kg/hm2 N addition improves the soil stability and the nutrient status.

关键词

土壤/氮/有机碳/高寒草甸/土壤团聚体

Key words

soils/nitrogen/organic carbon/alpine meadow/soil aggregates

分类

农业科技

引用本文复制引用

刘晓东,尹国丽,武均,陈建纲,何振刚,师尚礼..氮素补充对高寒草甸土壤团聚体有机碳、全氮分布的影响[J].农业工程学报,2015,31(14):139-147,9.

基金项目

国家公益性行业(农业)科研专项《青藏高原社区畜牧业》(201203010) （农业）

农业工程学报

OA北大核心CSCDCSTPCD

ISSN：1002-6819

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