CN102279179A - Device for researching crop canopy ammonia exchange in situ at farmland and monitoring method - Google Patents

Abstract

The invention discloses a device for researching crop canopy ammonia exchange in situ at a farmland and a monitoring method. The device comprises an air-proof cultivation cover and a dilute acid carrier, wherein an air inlet pipe is arranged on the side wall, close to the zero depth, of the cultivation cover; an air exhaust hole is formed in the top of the cultivation cover; the air exhaust hole is connected with a vacuum pump; and brackets for fixing the dilute acid carrier are arranged at the ends, close to the zero depth and the air exhaust hole, in the cultivation cover respectively. The diameter and the height of a growth box of the device can be adjusted according to the size and the height of a monitored plant; and dilute acid for soaking sponge can be phosphoric acid, sulfuric acid and oxalic acid. By the device and the monitoring method, canopy ammonia exchange of farmland crops in a vigorous growing stage (particularly after fertilization) and ammonia emission of the farmland crops in a growing later stage can be researched; during monitoring, humiture in the cover is almost the same as the humiture in a natural environment, so mists in the cover are avoided and influence on growth of rice can be prevented; therefore, the repeatability of rice is high and the variation coefficient is generally less than or equal to 10 percent; and the device is easy to operate.

Description

The device and the monitoring method of the exchange of field original position research crop canopies ammonia

Technical field

The invention belongs to plant canopy ammonia exchange monitoring technical field in the agricultural production, be specifically related to a kind of device and monitoring method of field original position research crop canopies ammonia exchange.

 

Background technology

Along with world economy and explosive growth of population, artificial active nitrogen discharging is sharply risen, the agricultural production activity causes a large amount of ammonia to enter atmosphere, the rising of ammonia concentration has caused a series of ecological environment problem, reduces and greenhouse effect as body eutrophication, alga eruption, soil acidification, bio-diversity.The farmland is an important emission source of ammonia in the atmosphere, ammonia volatilization is that chemical fertilizer applies important lost approach behind the farmland, and gaseous ammonia also can be used as the nitrogen nutrition of plant simultaneously, plant canopy occupies core status in the biological earth circulation of ammonia, it can absorb airborne ammonia, also can in air, discharge ammonia, it is an important terminal of gaseous ammonia, yet, can exchange at field in-situ monitoring canopy ammonia in the international and domestic method that does not also have to be fit to, this has not only hindered the scientific evaluation of chemical fertilizer loss and farmland atmosphere pollution, also have influence on the formulation of the relevant agronomic measures of energy-saving and emission-reduction and high-yield and high-efficiency, various circles of society generally pay attention to and in the effort solution, therefore, adopt reasonable method to seem particularly important in the exchange of field in-situ monitoring field-crop canopy ammonia though these problems have obtained.

The method of present existing research canopy ammonia exchange comprises: (1) leaf chamber method, promptly plant leaf blade is placed in the very little chamber, the people is the factor of controling environment, judge blade ammonia exchange capacity by the variation of ammonia concentration, this mechanism and influence factor for research ammonia exchange is suitable, but is helpless for being grown in especially the apply fertilizer ammonia exchange research of field-crop of plant in the physical environment; (2) micrometeorology method, it is the external farmland emission intensity research method that adopts usually, but this method all has very strict requirement to the stability of meteorological condition, the homogeneity and the mensuration area (greater than 1 hectare) of surrounding environment, and instrument and equipment costliness, of paramount importance is the emission intensity amount that the micrometeorology method can only be measured total system, can not distinguish the contribution of soil and canopy, still be black box for the ammonia exchange capacity of canopy; (3) confined chamber method, the ammonia loss by volatilization research of present domestic farmland adopts this method, but present confined chamber is very little, can not be included canopy, what in fact measure is the emission intensity on agricultural land soil surface, powerless equally for the farmland emission intensity research evaluation that canopy participates in.Therefore, existent method or can't study the ammonia exchange of canopy separately, or can not carry out in the field original position.Defective at existent method exists through constantly groping and attempting, proposes this invention, makes the field original position research of crop canopies ammonia exchange be achieved.

 

Summary of the invention

The technical matters that is solved: the object of the present invention is to provide a kind of device and monitoring method of studying the exchange of plant canopy ammonia, be particularly useful for field-crop canopy ammonia exchange monitoring.

Technical scheme:For achieving the above object, the technical solution used in the present invention is as follows: the device of field original position research crop canopies ammonia exchange, comprise airtight culture hood and diluted acid carrier, culture hood is provided with draft tube near the sidewall on the face of land, the culture hood top is provided with vent port, vent port is connected with vacuum pump, the interior support that is used for fixing the diluted acid carrier that is respectively equipped with near face of land end with near the exhaust nose end of culture hood.Lateral wall is provided with thermometer and hygrometer in the described culture hood.Described diluted acid carrier is a sponge.The size of described diluted acid carrier is identical with the cross-sectional area of culture hood.The connecting pipe of described vent port and vacuum pump is provided with flowmeter.Described diluted acid is orthophosphoric acid, sulfuric acid or oxalic acid.Described culture hood lower end is PVC, and the upper end is a transparent organic glass, and the two seals with gummed paper when measuring the ammonia exchange.Described diluted acid carrier and plant contact part are isolated by vinyon.

The monitoring method of the device of field original position research crop canopies ammonia exchange, step is: when carrying out ammonia exchange monitoring in certain stage of plant growth, with the preprepared carrier that is soaked with diluted acid, be placed on the lower bracket of A group culture hood respectively and on the upper bracket of the culture hood of B group, the plant of A group is in the middle of carrier, contact portion is isolated with vinyon, then opening vacuum pump bleeds, approaching and the interior no fog generation of the case of guaranteeing to grow of humiture that maintenance growth case is inside and outside, set up the time of bleeding according to the research needs, bleed finish after, take off culture hood, two groups carriers are extracted through the deionized water concussion, adopt the ammonia amount of ultraviolet spectrophotometer and indophenol blue colorimetric method for determining absorption, can draw canopy ammonia exchange capacity in this time period.

Beneficial effect:

The device and the monitoring method of the research plant canopy ammonia exchange that the inventor proposes, make the field original position research of crop canopies ammonia exchange be achieved, overcome micrometeorology method and confined chamber method and can not distinguish this shortcoming of the contribution of plant canopy in the emission intensity of farmland.

The diameter of the growth case among the present invention and height can and highly be adjusted according to the size of monitoring plant, and the diluted acid that soaks into sponge can be orthophosphoric acid, sulfuric acid, oxalic acid.The present invention not only can study the canopy ammonia exchange of field-crop growth animated period (especially fertilising back), can also study the emission intensity in plant growth later stage.No significant difference in interior humiture of cover and the physical environment does not have fog substantially and produces during the monitoring in the cover, does not influence paddy growth, result's good reproducibility, and the coefficient of variation generally is no more than 10%, and device is operation easily.

Use this systems approach to carry out study on monitoring widely, propose the agronomic measures of the agriculture atmosphere-water pollution of practicable minimizing, increase fertilizer efficiency on this basis, serve modern agricultural development the crops under variety classes and the planting patterns.

 

Description of drawings

Fig. 1 is: adopt the present invention to monitor the absorption synoptic diagram of fertilising back, rice field rice canopy to soil table volatilization ammonia.

Fig. 2 is: apparatus of the present invention structural representation, and A is used to monitor the soil surface emission intensity among the figure; B is used for soil-canopy system emission intensity: 1 draft tube; 2 supports; 3 diluted acid carriers; 4 humiture analyzers; 5 flowmeters; 6 vacuum pumps.

 

Embodiment

Below the beneficial effect introducing realization of the present invention and brought by specific embodiments, but protection domain of the present invention is not constituted any qualification.

 

Embodiment 1

The device of field original position research crop canopies ammonia exchange, comprise airtight culture hood and diluted acid carrier 3, culture hood is provided with draft tube 1 near the sidewall on the face of land, the culture hood top is provided with vent port, vent port is connected with vacuum pump 6, the interior support 2 that is used for fixing diluted acid carrier 3 that is respectively equipped with near face of land end with near the exhaust nose end of culture hood.Lateral wall is provided with thermometer and hygrometer in the culture hood.The diluted acid carrier is a sponge.The size of diluted acid carrier is identical with the cross-sectional area of culture hood.The connecting pipe of vent port and vacuum pump is provided with flowmeter (5).Diluted acid is orthophosphoric acid, sulfuric acid or oxalic acid.The culture hood lower end is PVC, and the upper end is a transparent organic glass, and the two seals with gummed paper when measuring the ammonia exchange.Diluted acid carrier and plant contact part are isolated by vinyon.

 

Embodiment 2

The monitoring method of the device of field original position research crop canopies ammonia exchange, when carrying out ammonia exchange monitoring in certain stage of plant growth, with the preprepared carrier that is soaked with diluted acid, be placed on the lower bracket of A group culture hood respectively and on the upper bracket of the culture hood of B group, the plant of A group is in the middle of carrier, contact portion is isolated with vinyon, then opening vacuum pump bleeds, approaching and the interior no fog generation of the case of guaranteeing to grow of humiture that maintenance growth case is inside and outside, set up the time of bleeding according to the research needs, bleed finish after, take off culture hood, two groups carriers are extracted through the deionized water concussion, adopt the ammonia amount of ultraviolet spectrophotometer and indophenol blue colorimetric method for determining absorption, can draw canopy ammonia exchange capacity in this time period.

Embodiment 3

Monitoring example: rice terrace fertilising back rice canopy ammonia exchange study on monitoring

With rice cultivating in the PVC cylinder that diameter is 30cm, placing into the soil in the lower part, bassets in top, it is the air intake opening of 3cm that there is a diameter cylinder top, be divided into two groups, wherein one group is used to monitor the soil surface emission intensity, at the embedded stainless steel stent of PVC cylinder, can place the sponge (being called for short the A group) that is adsorbed with diluted acid on it; Another group is used for soil-canopy system emission intensity (being called for short the B group), and the difference of the ammonium amount of the two absorption promptly is the ammonia exchange capacity of canopy, absorbs gaseous ammonia on the occasion of the expression canopy, and negative value is represented canopy discharging ammonia.

The Sheng phase of tillering behind rice transplanting topdresses, and rate of fertilizer application is 6 kg N/ mus, and the periodic monitor rice canopy ammonia every day exchange of fertilising back continues to measure approaching until volatile quantity and background value.Concrete grammar is: with preprepared sponge (the sponge thickness 2cm that is soaked with diluted acid, diluted acid is a sulfuric acid, concentration is 0.01mol/L, sponge water cut 30%) be placed on the stainless steel stent of A group respectively and on the support of the growth case top of B group, the plant of A group is in the middle of sponge, contact portion is isolated with vinyon, then the top there is the circular organic glass growth case of a gas outlet to cover on PVC cylinder top, growth case height is 100cm, the humiture analyzer is housed inside and outside it, the growth case is identical with PVC drum diameter, seal by gummed paper with being about to two parts, then open vacuum pump and bleed, the valve control by flowmeter keep inside and outside the growth case humiture near and the case of guaranteeing to grow in no fog produce, each case extraction flow of growing is 30 L/min in this experiment.

Set up the time of bleeding according to the research needs, suitably shorten when the temperature high humility is big and bleed the time, paddy rice is selected half an hour, close vacuum pump afterwards, take off the growth case, two groups sponge is taken back the laboratory, sponge is extracted through the deionized water concussion, adopt the ammonia amount of ultraviolet spectrophotometer and indophenol blue colorimetric method for determining sponge absorption,, can draw canopy ammonia exchange capacity in this time period through calculating.The difference of the ammonia amount that soil and soil-canopy system is adsorbed promptly is the ammonia exchange capacity of canopy in this time period.

The method that this invention proposes is feasible in the exchange of field in-situ monitoring crop canopies ammonia, and no significant difference in humiture and the physical environment does not influence paddy growth in covering during monitoring, result's good reproducibility, and device is operation easily.Accompanying drawing 1 promptly is the experimental result of this monitoring example, and after the result showed to topdress in the rice field, under all consistent prerequisite of other conditions, the emission intensity of soil-water-canopy system proved that far below soil-water system emission intensity the ammonia that rice canopy overflows native face has remarkable absorption; The ammonia volatilization of soil-water surface mainly occurred in week after the fertilising, and peak value appears at the 3rd day after the fertilising, and in this week age, canopy has absorbed 54% of soil-water surface volatilization ammonia.These have given new inspiration and research point of penetration to deeply being familiar with intensification farmland ecosystem loss of nitrogen fertilizer with the relevant resistance control means of formulation.

Claims (9)

1. the device of field original position research crop canopies ammonia exchange, it is characterized in that comprising airtight culture hood and diluted acid carrier (3), culture hood is provided with draft tube (1) near the sidewall on the face of land, the culture hood top is provided with vent port, vent port is connected with vacuum pump (6), the interior support (2) that is used for fixing diluted acid carrier (3) that is respectively equipped with near face of land end with near the exhaust nose end of culture hood.

2. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that lateral wall is provided with thermometer and hygrometer in the described culture hood.

3. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that described diluted acid carrier is a sponge.

4. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that the size of described diluted acid carrier is identical with the cross-sectional area of culture hood.

5. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that the connecting pipe of described vent port and vacuum pump is provided with flowmeter (5).

6. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that described diluted acid is orthophosphoric acid, sulfuric acid or oxalic acid.

7. the device of field original position research crop canopies ammonia exchange according to claim 1 is characterized in that described culture hood lower end is PVC, and the upper end is a transparent organic glass, and the two seals with gummed paper when measuring the ammonia exchange.

8. the device of field original position research crop canopies ammonia according to claim 1 exchange is characterized in that described diluted acid carrier and plant contact partly isolated by vinyon.

9. the monitoring method of the device of the arbitrary described field original position research crop canopies ammonia exchange of claim 1～8, it is characterized in that step is: when carrying out ammonia exchange monitoring in certain stage of plant growth, with the preprepared carrier that is soaked with diluted acid, be placed on the lower bracket of A group culture hood respectively and on the upper bracket of the culture hood of B group, the plant of A group is in the middle of carrier, contact portion is isolated with vinyon, then opening vacuum pump bleeds, approaching and the interior no fog generation of the case of guaranteeing to grow of humiture that maintenance growth case is inside and outside, set up the time of bleeding according to the research needs, bleed finish after, take off culture hood, two groups carriers are extracted through the deionized water concussion, adopt the ammonia amount of ultraviolet spectrophotometer and indophenol blue colorimetric method for determining absorption, can draw canopy ammonia exchange capacity in this time period.

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