Overall, organic farms tend to store more soil carbon, have better soil quality, and reduce soil erosion compared to their conventional counterparts.
总体而言,与传统农场相比,有机农场往往会存储更多的土壤碳,土壤更优质,并减少土壤侵蚀。
Soil carbon is an important part of terrestrial ecosystem carbon cycle.
土壤碳是陆地生态系统碳循环的重要组成部分。
Remote sensing of soil carbon storage is critical to understand climate chan.
首先,分析了利用遥感方法估算土壤碳储量的可行性。
They say no-till stores more soil carbon, which helps the soil particles stick together.
他们声称免耕法储存了更多土壤中能够帮助土壤微粒凝聚在一起的碳。
The study found that soil carbon levels varied, depending on soil type and sampling depth.
该项研究发现,根据土壤的类型与取样的深度不同,土壤储存的碳水平有所不同。
Changing the traditional farming methods to improve the level of soil carbon sequestration.
改变传统的耕作方法,提高土壤的固碳水平。
Soil carbon cycle plays an important role in global warming and concerns for it have been increased.
土壤碳循环在全球气候变暖上具有重要的作用,也越来越受到人们的关注。
Studies that measure soil carbon in deeper levels of soil (up to 60 cm) find very different results.
对土壤更深层(达到60cm)中储存的碳进行测量的研究获得非常不同的结果。
Much of this carbon, even soil carbon, will move back to the atmosphere if these forests are disturbed.
这在很大程度上活性炭,即使土壤中碳,将搬回到大气中,如果这些森林感到不安。
The soil carbon density change model is based on regression analysis of the carbon densities of different soils.
对不同土壤类型碳密度随时间的变化,用回归分析的方法,建立土壤碳密度变化模型。
Soil carbon cycling in wetlands largely affected global carbon cycling and also possibly global climatic changes.
湿地土壤碳的循环对全球大气碳的收支平衡以及全球气候变化可能产生重大影响。
Planting perennial grasses on existing agricultural lands had the most beneficial effect on soil carbon, the researchers found.
研究者发现,在现有农田种植多年生草本植物是涵养土壤,提高碳含量的最佳做法。
Forest soil plays an important role in global carbon cycle, but emphasized a lack of fundamental knowledge of soil carbon dynamics.
森林土壤在全球碳循环研究中占有重要位置,但其动力学特征等相关的数据却非常匮乏。
The structure of soil carbon stability conceptual model can be helpful to systematically understand soil carbon stability mechanism.
构建土壤有机碳稳定性概念模型,能更系统地理解有机碳在土壤中的稳定机制。
When soil carbon levels were measured up to 60 cm deep, total soil carbon levels in no-till were similar to those of ploughed soils.
当土壤中储存的碳水平的测量深度测量到60cm的深度,免耕土壤中储存的碳总量水平与经耕作的土壤储存的碳碳总量水平类似。
This distribution pattern of soil carbon was related to such factors as the precipitation eluviation and the organism activities in soils.
土壤碳的这种分布格局与大气降水的淋溶、土壤生物活动等因素有关。
Agriculture soil carbon pool can be interrupted strongly by anthropic activity and also can be regulated at a relatively short time scale.
农业土壤碳库是受人为强烈干扰而又可以在较短时间尺度上调节的碳库。
Soil carbon is a significant component of global carbon cycling, the change of land use pattern has a great influence on soil carbon source or sink.
土壤碳是全球碳循环中的重要组成部分,土地利用方式的改变对土壤碳的源和汇具有很大的影响。
Soil carbon management index (CMI) sensitively reflected the dynamics changes of SOC pool under with different land use and different soil managements.
土壤碳管理指数(CMI)较好的反映了在不同的管理方式下土壤有机碳库水平的动态变化情况。
Grazing-induced retrogression had no obvious effect on the carbon content of community and energy PFGs, but it made the content of soil carbon decreased.
放牧退化对群落、各能值功能群碳含量影响不明显,但是却使得土壤碳含量降低。
Elevated atmospheric CO2 concentration significantly increase crops biomass, which will input more carbon into soil to affect soil carbon stability and accumulation.
大气CO2浓度升高显著增加作物生物量,从而使进入土壤的有机碳增加,这势必会影响土壤碳的稳定和积累。
It is important to research on the distribution rule of the regional soil carbon pool for the study of global change, soil fertility and ecosystem function appraisal.
研究区域土壤碳库的分布特征对于全球变化研究、土壤肥力和生态系统的功能评价具有重要意义。
Different degrees of soil compaction were caused by frequently human activities in urban forest in recent years, and thus affected forest productivity and soil carbon balance.
近年来城市森林人为活动频繁,对林地土壤造成不同程度的压实,从而影响林分生产力及森林土壤碳平衡。
"Every one percent increase in soil carbon holds an additional 60, 000 gallons of water per acre," says Apfelbaum. "water infiltrates the ground and replenishes groundwater sources."
“每英亩土壤的固碳率增加百分之一,就能多带来6万加仑的水,”阿普费鲍姆说,“这些水渗入地下,补充了地下水的储量。”
The model of soil carbon cycling is important in carrying out simulating and predicting soil carbon cycling and is a effect tool synthesizing different factors and their interactions.
土壤碳循环模型是定量实现土壤碳循环的模拟和预测的必不可少的手段,同时也是综合不同因子及其相互作用的有力工具。
The boreal forest plays a crucial role in the global carbon budget and climatic system because of its large area, great soil carbon storage, and sensitive responses to the global warming.
北方森林因其面积大、土壤碳储量高以及对全球暖化响应敏感而在全球碳平衡和气候系统中起着至关重要的作用。
According to the previous researches over the world, the scientific progress was concluded, including the potential capacity and mechanism of soil carbon sequestration, influence factors as well.
本文围绕土壤固碳的基本问题,总结了农田土壤固碳潜力、土壤有机碳固定机制及其影响因素的国内外研究进展。
According to the previous researches over the world, the scientific progress was concluded, including the potential capacity and mechanism of soil carbon sequestration, influence factors as well.
本文围绕土壤固碳的基本问题,总结了农田土壤固碳潜力、土壤有机碳固定机制及其影响因素的国内外研究进展。
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