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Method for increasing carbon sequestration amount of moderately-degraded puccinellia tenuiflora meadow vegetation

A technology for carbon sequestration and hassle, applied in chemical instruments and methods, botanical equipment and methods, and land preparation methods, etc., can solve the problems of the deterioration of the Songnen grassland ecological environment, the decline of the vegetation carbon sequestration capacity, and the "degradation of grasslands". The effect of improving productivity and carbon sequestration, mitigating global climate change, and improving the growing environment

Pending Publication Date: 2021-03-19
HEILONGJIANG ACAD OF SCI INST OF NATURAL RESOURCES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the transitional needs of economic and social development, human beings represented by land reclamation, reclamation and overgrazing have led to the deterioration of the ecological environment of the Songnen Grassland. The problems of "degeneration, salinization and desertification" of the grassland are particularly serious, and the carbon sequestration capacity of vegetation is serious. decline
At home and abroad, a lot of work has been done on the carbon sequestration of grassland ecosystems, most of which focus on basic theoretical research on carbon cycle, greenhouse gas emissions, soil carbon and nitrogen, etc. Research on grassland vegetation carbon sequestration and increasing sink technology is still in the works. lacking

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] To provide a method for quickly increasing the carbon sequestration capacity of moderately degraded stargrass meadow vegetation, the steps are as follows:

[0028] Step 1: Assessing the degree of vegetation degradation of the star grass meadow, the vegetation coverage rate is used as the assessment index of the vegetation degradation degree (slight, medium and severe) of the star grass meadow, and the vegetation coverage rate ≥ 70% is mildly degraded, 70% > Vegetation coverage ≥ 40% is moderately degraded, and vegetation coverage < 40% is severely degraded. The evaluation time is generally at the end of July or early August (the period with the highest vegetation biomass).

[0029] Step 2: Soil preparation, where there is no plant coverage or where the plant coverage rate is low, shallow plowing and light raking, the depth of shallow plowing is 4-6cm, and light raking to break up the soil clods. The implementation time is early April.

[0030] Step 3: The application of...

Embodiment 2

[0035] To provide a method for quickly increasing the carbon sequestration capacity of moderately degraded stargrass meadow vegetation, the steps are as follows:

[0036] Step 1: Assessing the degree of vegetation degradation of the star grass meadow, the vegetation coverage rate is used as the assessment index of the vegetation degradation degree (slight, medium and severe) of the star grass meadow, and the vegetation coverage rate ≥ 70% is mildly degraded, 70% > Vegetation coverage ≥ 40% is moderately degraded, and vegetation coverage < 40% is severely degraded. The evaluation time is generally at the end of July or early August (the period with the highest vegetation biomass).

[0037] Step 2: Soil preparation, where there is no plant coverage or where the plant coverage rate is low, shallow plowing and light raking, the depth of shallow plowing is 4-6cm, and light raking to break up the soil clods. The implementation time is early April.

[0038] Step 3: The application of...

Embodiment 3

[0043] To provide a method for quickly increasing the carbon sequestration capacity of moderately degraded stargrass meadow vegetation, the steps are as follows:

[0044] Step 1: Assessing the degree of vegetation degradation of the star grass meadow, the vegetation coverage rate is used as the assessment index of the vegetation degradation degree (slight, medium and severe) of the star grass meadow, and the vegetation coverage rate ≥ 70% is mildly degraded, 70% > Vegetation coverage ≥ 40% is moderately degraded, and vegetation coverage < 40% is severely degraded. The evaluation time is generally at the end of July or early August (the period with the highest vegetation biomass).

[0045] Step 2: Soil preparation, where there is no plant coverage or where the plant coverage rate is low, shallow plowing and light raking, the depth of shallow plowing is 4-6cm, and light raking to break up the soil clods. The implementation time is early April.

[0046] Step 3: The application of...

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Abstract

The invention relates to a method for increasing the carbon sequestration amount of moderately-degraded puccinellia tenuiflora meadow vegetation. The method comprises the steps that 1, soil preparation is conducted on the portions, without coverage or with low plant coverage rate, in a preset area in shallow ploughing and light raking manners, the soil preparation time is the first ten days of April in the same year, soil blocks need to be smashed in the soil preparation process, and the soil ploughing depth needs to be 4-6 cm; 2, a predetermined ecological preparation is adopted to be appliedto the prepared land the first ten days or the middle ten days of April in the same year; 3, a predetermined fertilizer is adopted to be applied to the land to which the predetermined ecological preparation is applied in the first ten days or the middle ten days of April in the same year; 4, predetermined grass seeds are sowed on the land to which the predetermined fertilizer is applied in the middle ten days or the last ten days of April in the same year; and 5, later-period management and protection are conducted, wherein watering is mainly conducted in the sowing period. The method can effectively improve the growth environment of the vegetation, improve the productivity and the carbon sequestration capacity of the vegetation and increase the carbon sequestration amount of the vegetation.

Description

technical field [0001] The invention relates to a method for increasing the carbon sequestration capacity of moderately degraded stargrass meadow vegetation, and belongs to the technical field of grassland carbon sink emission reduction. Background technique [0002] Carbon is the most basic cyclic substance in the ecosystem, mostly in the form of CO 2 The forms of spheres migrate and transform between the biosphere, hydrosphere, lithosphere and atmosphere, and remain in a relatively balanced state. However, due to human activities dominated by agricultural reclamation, overgrazing, and burning of fossil fuels, atmospheric CO 2 The sharp increase in the content of carbon dioxide destroys the balance of the global carbon cycle, increases carbon sources while reducing carbon sinks, and changes the global climate. In the context of global warming, increasing terrestrial response to CO 2 The fixation of carbon emissions, the reduction of carbon emissions, and the fight for mo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01B79/00A01B79/02A01G20/00C09K17/32C09K101/00
CPCA01B79/00A01B79/02A01G20/00C09K17/32C09K2101/00
Inventor 王继丰黄庆阳曹宏杰谢立红焉志远徐明怡曾昭文周晓亮董海鹏杨帆张弘强崔福星伍一宁朱道光
Owner HEILONGJIANG ACAD OF SCI INST OF NATURAL RESOURCES
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