CN110133200A - It is a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment - Google Patents

Abstract

It is a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, including outer case and interior rhizosphere case, outer case is without top and inner space by interventricular septum plate is divided into rhizosphere chamber and water storage chamber, and water storage chamber sidewall is equipped with water discharging valve；Interior rhizosphere case is located in rhizosphere chamber, and interior rhizosphere case is mounted on interventricular septum plate upper surface；Cross water distribution frame is provided with above interior rhizosphere case；Interior rhizosphere case includes rhizosphere partition and insert rack, and rhizosphere partition is plugged among the insert rack of top and bottom；Uniformly distributed several permeable through-holes on rhizosphere partition and interventricular septum plate；Interior rhizosphere box body uses three-decker, and three layer box bodies are successively separated out root zone, nearly root zone and remote root zone, and planting is in root zone；Rhizosphere partition outer surface and interventricular septum plate upper surface are equipped with permeable filter screen；Cross water distribution frame water inlet pipe passes sequentially through water delivery hose and peristaltic pump is connected with water source；Soil moisture sensor, temperature sensor, ORP impolarizable electrode and salinity conductivity sensor are equipped in root zone, nearly root zone and remote root zone.

Description

It is a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment

Technical field

The invention belongs to plant rhizosphere microenvironment studying technological domains, micro- for studying plant rhizosphere more particularly to one kind Multi-functional case apparatus of environment.

Background technique

The concept of rhizosphere proposes at first by German biologist Lorenz Hilter, refer to from root axis surface millimeter or li Within the scope of rice and positioned at root surface and close to the soil layer around root, and rhizosphere environment is divided into rhizosphere external environment, rhizosphere inner ring Border and root system internal environment, are influenced by root system of plant activity, and are different from nature commonly in physics, chemistry and biology The environment of the soil body, rhizosphere environment are most active soil microcells, in formed by the micro- life of root system of plant-rhizosphere soil- The specific microecosystem that object is constituted.

The study found that root system of plant is the core that different type rhizosphere environment is constituted, the root system point of Plant emission Secretion maintains the dynamic equilibrium of rhizosphere environment.On the one hand, mutual disturbance relationship of the plant root growth to rhizosphere soil, shadow Ring substance conversion, migration and other dynamic processes of rhizosphere environment；On the other hand, the organic acid of plant metabolism, carbohydrate, Amino acids and other metabolites, in Biogeochemistries mistakes such as soil mineral weathering, rhizospheric environment variation, Nutrient Transformations Key effect is played in journey, the metabolite that microcosmic mechanism can be summarized as plant is changed by reactions such as neutralization, hydrolysis, complexings Become the physico-chemical property of soil micro-interface, so influence ASI systematic approach to the validity and nitrogen of plant, phosphorus and light metal from The migration of the nutrients such as son, distribution, enrichment and conversion.

Rhizosphere environment is always the multi-disciplinary research such as domestic and international agrology, ecology, Plant Nutrition, agricultural sciences Hot spot but how on-line real time monitoring and precisely acquisition soil in situ, be rhizosphere environment in research growing process always Technical problem.

Research for plant rhizosphere microenvironment field generallys use the mode of plant attaching soil in early days, but should Mode is difficult to precise positioning to the micro-interface of plant rhizosphere, has also seriously affected the growth of plant and the continuity and one of the soil body Cause property, and then the conversion circulation and the analysis of microorganism feature measurement of plant rhizosphere soil nutrient are influenced, lead to result of study Lack accuracy.

In order to overcome traditional shortcoming existing for plant attaching soil mode of shaking off, root case method is gradually popularized, can To realize efficient rhizosphere soil sampling, still, in growing process, traditional root case method still can not be adopted precisely in situ Collect rhizosphere soil, while can not real-time monitoring rhizosphere environment Parameters variation.

Summary of the invention

In view of the problems of the existing technology, the present invention provides a kind of for studying multi-functional of plant rhizosphere microenvironment Case apparatus can precisely acquire rhizosphere soil in situ, while the Parameters variation of rhizosphere environment can be monitored in real time.

To achieve the goals above, the present invention adopts the following technical scheme: it is a kind of for studying plant rhizosphere microenvironment Multi-functional case apparatus, including outer case and interior rhizosphere case, the outer case using no roof construction, the inner space of outer case by It is divided into rhizosphere chamber and water storage chamber under, interventricular septum plate is provided between rhizosphere chamber and water storage chamber, in water storage chamber Water discharging valve is installed on corresponding outer container body sidewall；The interior rhizosphere case is located in rhizosphere chamber, and interior rhizosphere case is mounted on room Spacing board upper surface；Cross water distribution frame is provided with above the interior rhizosphere case.

The interior rhizosphere case includes rhizosphere partition, rhizosphere partition bottom bay and rhizosphere partition top insert rack, rhizosphere partition Bottom bay is connected in interventricular septum plate upper surface, and rhizosphere partition lower end is plugged in rhizosphere partition bottom bay, on rhizosphere partition End is plugged at the top of rhizosphere partition in insert rack.

Insert rack is all made of hexagonal structure at the top of the rhizosphere partition bottom bay and rhizosphere partition, and rhizosphere partition bottom is inserted Uniformly distributed six rhizosphere partitions between insert rack, constitute interior rhizosphere box body by six rhizosphere partitions at the top of frame and rhizosphere partition.

Uniform cloth on interventricular septum plate plate body on the rhizosphere partition plate body, on the inside of the rhizosphere partition bottom bay Equipped with several permeable through-holes.

The interior rhizosphere box body uses three-decker, and the inner space of the interior layer box body of interior rhizosphere case is set as root zone, interior Space between the interior layer box body of rhizosphere case and intermediate layer box body is set as nearly root zone, the intermediate layer box body and outer layer case of interior rhizosphere case Space between body is set as remote root zone, and planting is in root zone.

Permeable filter screen is equipped in the outer surface of the rhizosphere partition, in the upper surface of the interventricular septum plate.

Uniformly distributed on the outlet pipe of the cross water distribution frame to have apopore, the water inlet pipe of cross water distribution frame passes sequentially through defeated Glue pipe and peristaltic pump are connected with water source.

Soil moisture sensor, temperature sensor, ORP, which are provided with, in the root zone, nearly root zone and remote root zone goes to pole Polarizing electrode and salinity conductivity sensor.

The signal output of the soil moisture sensor, temperature sensor, ORP impolarizable electrode and salinity conductivity sensor End passes sequentially through data-interface converter and Multichannel data acquisition device is connected with control of intelligent terminal, passes through intelligent control end End sets experiment parameter, is stored and analyzed to experimental data.

Beneficial effects of the present invention:

Multi-functional case apparatus for being used to study plant rhizosphere microenvironment of the invention, can precisely acquire Rhizosphere Soil in situ Earth, while the Parameters variation of rhizosphere environment can be monitored in real time；Root case apparatus Whole-dismountable, can reuse；In original When the acquisition rhizosphere soil of position, accurate acquisition can be realized, while avoiding generating physical perturbation to plant rhizosphere microenvironment；Pass through root The permeable through-hole opened up on the partition of border, it is ensured that growth conditions, nutrient, microorganism and the root exudates of root system of plant Transport And Transformation activity it is unobstructed；Root case apparatus had both been suitble to the rhizosphere environment research of wetland plant, was also suitble to xerophyte Rhizosphere environment research.

Detailed description of the invention

Fig. 1 is of the invention a kind of for studying the perspective view of multi-functional case apparatus of plant rhizosphere microenvironment；

Fig. 2 is of the invention a kind of for studying the top view of multi-functional case apparatus of plant rhizosphere microenvironment；

Fig. 3 is of the invention a kind of for studying the three-dimensional cutaway view of multi-functional case apparatus of plant rhizosphere microenvironment；

Fig. 4 is the perspective view of interior rhizosphere case of the invention；

Fig. 5 is the perspective view of cross water distribution frame of the invention；

In figure, 1-outer case, 2-interior rhizosphere casees, 3-rhizosphere chambers, 4-water storage chambers, 5-interventricular septum plates, 6-rows Penstock, 7-cross water distribution framves, 8-rhizosphere partitions, 9-rhizosphere partition bottom bays, 10-rhizosphere partitions top insert racks, 11-permeable through-holes, 12-root zones, 13-nearly root zones, 14-remote root zones.

Specific embodiment

The present invention is described in further detail in the following with reference to the drawings and specific embodiments.

It is a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment as shown in Fig. 1~5, including outer case 1 and Interior rhizosphere case 2, for the outer case 1 using no roof construction, the inner space of outer case 1 is from top to bottom divided into rhizosphere chamber 3 and storage Water chamber 4 is provided with interventricular septum plate 5 between rhizosphere chamber 3 and water storage chamber 4, in corresponding 1 side wall of outer case of water storage chamber 4 On water discharging valve 6 is installed；The interior rhizosphere case 2 is located in rhizosphere chamber 3, and interior rhizosphere case 2 is mounted on table on interventricular septum plate 5 Face；Cross water distribution frame 7 is provided with above the interior rhizosphere case 2.

The interior rhizosphere case 2 includes rhizosphere partition 8, rhizosphere partition bottom bay 9 and rhizosphere partition top insert rack 10, rhizosphere Partition bottom bay 9 is connected in 5 upper surface of interventricular septum plate, and 8 lower end of rhizosphere partition is plugged in rhizosphere partition bottom bay 9, root Partition 8 upper end in border is plugged at the top of rhizosphere partition in insert rack 10.

Insert rack 10 is all made of hexagonal structure, rhizosphere partition bottom at the top of the rhizosphere partition bottom bay 9 and rhizosphere partition Uniformly distributed six rhizosphere partitions 8 between insert rack 10, constitute interior rhizosphere case 2 by six rhizosphere partitions 8 at the top of portion's insert rack 9 and rhizosphere partition Cabinet.

On 8 plate body of rhizosphere partition, on 5 plate body of interventricular septum plate of 9 inside of the rhizosphere partition bottom bay It is even to be laid with several permeable through-holes 11.

Interior 2 cabinet of rhizosphere case uses three-decker, and the inner space of the interior layer box body of interior rhizosphere case 2 is set as root zone 12, the space between the interior layer box body of interior rhizosphere case 2 and intermediate layer box body is set as nearly root zone 13, the middle layer case of interior rhizosphere case 2 Space between body and outer-layer box body is set as remote root zone 14, and planting is in root zone 12.

Permeable filter screen is equipped in the outer surface of the rhizosphere partition 8, in the upper surface of the interventricular septum plate 5.

Uniformly distributed on the outlet pipe of the cross water distribution frame 7 to have apopore, the water inlet pipe of cross water distribution frame 7 passes sequentially through Water delivery hose and peristaltic pump are connected with water source.

Be provided in the root zone 12, nearly root zone 13 and remote root zone 14 soil moisture sensor, temperature sensor, ORP impolarizable electrode and salinity conductivity sensor.

The signal output of the soil moisture sensor, temperature sensor, ORP impolarizable electrode and salinity conductivity sensor End passes sequentially through data-interface converter and Multichannel data acquisition device is connected with control of intelligent terminal, passes through intelligent control end End sets experiment parameter, is stored and analyzed to experimental data.In the present embodiment, control of intelligent terminal, which is selected, to be calculated Machine.

Illustrate first use process of the invention with reference to the accompanying drawing:

In the present embodiment, the permeable filter screen that the outer surface in rhizosphere partition 8, the upper surface in interventricular septum plate 5 are laid with is selected With the nylon wire of 200 mesh；The pore diameter range of the permeable through-hole 11 opened up on 8 plate body of rhizosphere partition is 10mm~20mm, in root The pore diameter range of the permeable through-hole 11 opened up on 5 plate body of interventricular septum plate of 9 inside of border partition bottom bay is 20mm~30mm；Root The volume ratio of border chamber 3 and water storage chamber 4 is 9:1；Outer case 1 is higher by 2mm~5mm than interior rhizosphere case 2；

After multi-functional case apparatus is completed, first filled out in the inner space of root zone 12, nearly root zone 13 and remote root zone 14 It fills soil with, synchronizes during filling soil by soil moisture sensor, temperature sensor, ORP impolarizable electrode and salt Conductivity sensor is divided to be installed in place, after plant root growth, it is ensured that ORP impolarizable electrode and salinity conductivity sensor position At the 1cm~2cm of root system of plant lower section.

After soil filling, by planting to root zone 12, in growing process, advised according to plant growth Rule setting water supply time and feedwater flow, while passing through soil moisture sensor, temperature sensor, ORP impolarizable electrode and salt Divide moisture content, temperature, ORP and the conductivity of conductivity sensor difference real-time monitoring soil.

When needing to carry out soil in-situ sampling, water discharging valve 6 is first opened the water in water storage chamber 4 to be vented, so Afterwards according to from the outer to the inner sequence carry out soil sample, first by the wherein a piece of rhizosphere of interior 2 outer-layer box body of rhizosphere case every Plate 8 is removed, and other five rhizosphere partitions 8 of outer-layer box body remain stationary, then with blade removal root system of plant top 1cm~ The soil of 2cm thickness, then in-situ sampling is carried out to remaining soil, it completes at the first of remote root zone 14 after soil sample, continues Complete the soil sample at remote root zone 14 remaining five.After the soil sample of remote root zone 14, by interior 2 middle layer case of rhizosphere case The wherein a piece of rhizosphere partition 8 of body is removed, and referring to the soil sample mode of remote root zone 14, is completed soil at the six of nearly root zone 13 and is taken Sample.After the soil sample of nearly root zone 13, referring again to the soil sample mode of remote root zone 14, root zone 12 is continued to complete Soil sample at six.

By above-mentioned soil sample process, the physical perturbation to soil, effectively holding soil can be avoided to the greatest extent Integrality, to the greatest extent reduce on root exudates release caused by influence, effectively avoid causing plant because of sampling process The variation of rhizosphere environment.Finally, the whole pedotheques that will acquire carry out the research of plant rhizosphere microenvironment.

The scope of patent protection that scheme in embodiment is not intended to limit the invention, it is all without departing from carried out by the present invention etc. Effect implements or change, is both contained in the scope of the patents of this case.

Claims (9)

1. a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, it is characterised in that: including outer case and interior Border case, for the outer case using no roof construction, the inner space of outer case is from top to bottom divided into rhizosphere chamber and water storage chamber, root It is provided with interventricular septum plate between border chamber and water storage chamber, drain valve is installed on the corresponding outer container body sidewall of water storage chamber Door；The interior rhizosphere case is located in rhizosphere chamber, and interior rhizosphere case is mounted on interventricular septum plate upper surface；Above the interior rhizosphere case It is provided with cross water distribution frame.

2. according to claim 1 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: the interior rhizosphere case includes rhizosphere partition, rhizosphere partition bottom bay and rhizosphere partition top insert rack, and rhizosphere partition bottom is inserted Frame is connected in interventricular septum plate upper surface, and rhizosphere partition lower end is plugged in rhizosphere partition bottom bay, the upper end grafting of rhizosphere partition At the top of the rhizosphere partition in insert rack.

3. according to claim 2 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists Insert rack is all made of hexagonal structure at the top of: the rhizosphere partition bottom bay and rhizosphere partition, rhizosphere partition bottom bay with Uniformly distributed six rhizosphere partitions between insert rack, constitute interior rhizosphere box body by six rhizosphere partitions at the top of rhizosphere partition.

4. according to claim 2 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: it is uniformly distributed on the interventricular septum plate plate body on the rhizosphere partition plate body, on the inside of the rhizosphere partition bottom bay to have Several permeable through-holes.

5. according to claim 2 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: the interior rhizosphere box body uses three-decker, and the inner space of the interior layer box body of interior rhizosphere case is set as root zone, interior rhizosphere case Interior layer box body and intermediate layer box body between space be set as nearly root zone, between the intermediate layer box body and outer-layer box body of interior rhizosphere case Space be set as remote root zone, planting is in root zone.

6. according to claim 2 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: permeable filter screen is equipped in the outer surface of the rhizosphere partition, in the upper surface of the interventricular septum plate.

7. according to claim 1 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: uniformly distributed on the outlet pipe of the cross water distribution frame to have apopore, the water inlet pipe of cross water distribution frame passes sequentially through water delivery glue Pipe and peristaltic pump are connected with water source.

8. according to claim 5 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists In: soil moisture sensor, temperature sensor, ORP impolarizable electrode are provided in the root zone, nearly root zone and remote root zone And salinity conductivity sensor.

9. according to claim 8 a kind of for studying multi-functional case apparatus of plant rhizosphere microenvironment, feature exists It is equal in the signal output end of: the soil moisture sensor, temperature sensor, ORP impolarizable electrode and salinity conductivity sensor It passes sequentially through data-interface converter and Multichannel data acquisition device is connected with control of intelligent terminal, pass through control of intelligent terminal pair Experiment parameter is set, is stored and analyzed to experimental data.