KR200183445Y1 - Mesocosm for observing the vertical migration of plankton - Google Patents

Abstract

The present invention relates to mesocosism for observing the vertical distribution and diurnal motion of plankton, and more specifically, to quantitatively investigate the vertical distribution of plankton, which is a microalgae in the marine and freshwater ecosystem, The present invention relates to a mesocosm for observation of planktonic movements that can be used when the movement is visually observed in the field.

The present invention is a mesocosm used to visually observe the vertical distribution and vertical circumferential movement of microalgae inhabiting the sea and fresh water, the hollow container 10 made of a transparent material to facilitate internal observation, and the container ( The upper and lower cover 10 is assembled to be rotatable through the upper and lower hinge pins 12a and 13a so as to open and close the upper and lower outlets of the upper and lower ends, and interferes with the upper and lower locking jaws 11a and 11b. 12) (13) and a plurality of discharge pipes (14) arranged at regular intervals with valve members (14a, 14b) on the outer surface of the engraved container 10, and connected to the lower end of the container (10) It provides a mesocosm for observing the plankton circumference movement that is equipped with a weight (15) and the pulling string 16 is connected to the upper cover 12 to open the top outlet of the container 10 at the time of collection.

Description

Mesochism for circumference of plankton movement {MESOCOSM FOR OBSERVING THE VERTICAL MIGRATION OF PLANKTON}

The present invention relates to mesocosism for observing the vertical distribution and diurnal motion of plankton, and more specifically, to quantitatively investigate the vertical distribution of plankton, which is a microalgae in the marine and freshwater ecosystem, The present invention relates to a mesocosm for observation of planktonic movements that can be used when the movement is visually observed in the field.

The vertical distribution of microalgae inhabiting the hydrosphere is currently collected by water layer (typically 5m or more) using water harvesters (length 50cm, capacity 2l), and quantitatively investigates microalgae in 1l of water. Doing.

However, when red tide occurs, red tide organisms generally exist at a high density between 1 and 5 m in depth, and thus it is impossible to observe their vertical distribution in detail by the conventional method.

In addition, due to the disadvantage of competition with diesel diatoms from the red algae-causing organisms, which have a high mobility of flagella, the vertical diurnal movement is performed toward the surface layer during the day for photosynthesis and the lower layer at night for the absorption of nutrients. As a result, the identification of these vertical movement paths is the basis of red tide research.

However, until now, their diurnal movement has to be investigated using a conventional water harvester, which makes it difficult to observe in detail.

That is, the conventional water collector is equipped with a hollow cylindrical tube and a simple form with a lid on the top and bottom thereof, and the water collector with the lid open to the desired depth at the time of water collection, and the top and bottom lids are lowered through the connecting string on the water. It is closed by the power of water to contain water.

In this case, it is difficult to collect water at narrow intervals, and it may disturb the distribution state of the microalgae around the container, and it is difficult to accurately observe the vertical distribution of the microalgae by quantitatively discharging to the outside. Could not be observed with the naked eye.

Therefore, the present invention has been devised to solve the above problems, and its purpose is to enable detailed vertical distribution of aquatic microalgae inhabiting the hydrosphere and to collect samples for quantitative analysis thereof, The purpose of this study is to provide a mesocosm for diurnal observation of planktonic diurnal movements that can be easily identified on the spot in the site of diurnal algae and phytoplankton fluctuations.

1 is a perspective view showing a mesocosm for observation of plankton circumference motion according to the present invention,

Figure 2 is a longitudinal sectional view showing a mesocosm for observation of plankton circumference motion according to the present invention.

* Explanation of symbols for the main parts of the drawings *

10 ...... Vessel 11a, 11b ..... upper and lower locking jaw

12 ...... Top Cover 12a ..... Top Hinge Pin

13 ...... Lower cover 13a ..... Lower hinge pin

14 ...... Exhaust pipe 15 ...... Weight

16 ... pulling line 17 ... withdrawing wire

The present invention as a technical configuration for achieving the above object,

In the mesocoses used to visually observe the vertical distribution and vertical circumference of microalgae in the ocean and fresh water,

A hollow container made of a transparent material to facilitate internal observation, and is assembled to be rotatable through upper and lower hinge pins to open and close the upper and lower exit pins of the container, and the upper and lower parts interfering with the upper and lower locking jaws. A plurality of discharge pipes are arranged at regular intervals with a cover, a valve member on the outer surface of the graduated container, and a weight connected to the lower end of the container, and connected to the upper cover to open the upper outlet of the container when water is collected. By preparing a mesoporem for observation of plankton circumference movement, characterized in that it is equipped with a pull string.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a mesocosism for observing the plankton circumference motion according to the present invention, Figure 2 is a longitudinal cross-sectional view showing a mesocosism for observing the plankton circumference motion according to the present invention, as shown, The cosm (1) is to collect a certain amount of marine and fresh water samples to be observed to observe the vertical distribution and diurnal movement of plankton in the ocean and fresh water, such a mesocosm (1) is a container (10), phase, The lower cover 12, 13, the discharge pipe 14 and the weight 15 is composed of.

That is, the container 10 is a hollow rectangular accommodating member made of a transparent material to collect a certain amount of sample in the inner space, and easy to internal pipe, the upper and lower inner peripheral surface of the container 10 is caught up and down The jaws 11a and 11b are projected, respectively.

One end of the container 10 is assembled to be rotatable via the upper hinge pin 12a to open and close the upper outlet, and the other end is interfered with the upper locking jaw 11a to restrict downward rotation. The upper cover 12 is mounted, and one end of the container 10 is rotatably assembled through the lower hinge pin 13a to open and close the lower outlet, and the lower cover jaw 11b is mounted on the lower end of the container 10. The lower end 13 is interfered with the side end is configured to include a lower cover (13).

In addition, a plurality of valve members 14a and 14b may be provided on the outer surface of the container 10 engraved with a predetermined interval so that the quantity of water collected in the inner space may be quantitatively drawn out. The plurality of discharge pipes 14 having are mounted at regular intervals.

In addition, the lower end of the container 10, weight 15 having a predetermined weight through a plurality of wires 18 to maintain the vertical state of the container 10 without being affected by the algae when sampling It is connected to the configuration, and having a pulling line 16 is connected to the lower end to the upper cover 12 to open the top outlet of the container 10, while the upper end of the container 10, the marine and during the harvesting operation Entering the fresh water, a plurality of pull-out wires 17 are connected to each other so that the container 10 containing a certain amount of water is lifted upward.

The operation and effects of the present invention having the above configuration will be described.

In order to collect the microalgae inhabiting in the sea and fresh water using the mesocosm (1) of the present invention, the vessel (10) is connected to the withdrawal wire (17) and the weight (15) is suspended at the bottom Or put it in fresh water to the desired depth.

At this time, the upper cover 12 which seals the top outlet of the container 10 is the operator pulls the pull string 16 to the top to rotate the upper hinge pin (12a) as a rotating shaft to the upper outlet To open.

In addition, the lower cover 13, which has closed the lower end of the container 10 by its own weight while the container 10 is submerged in water and descends to the depth, is moved into the empty interior space of the container 10. The lower hinge pin 13a is rotated upward by the rotation axis by the entry force of the water to be pushed in, and the lower outlet is opened.

Accordingly, when the container 10 maintaining the vertical state without being affected by the algae 15 is completely immersed in water, the water is filled through the opened upper and lower outlets. The interior space is filled with water containing the microalgae plankton.

In this state, when the operator releases the pulling line 16, the upper cover 12 is rotated downward until it is stopped by the upper locking jaw (11a) by its own weight, the top exit of the container 10 again When the container 10 is sealed and continuously pulled upward, the container 10 is pivoted upward to open the bottom outlet of the container 10 and then lowered to the lower hooking jaw 11b by water flowing through the top outlet. Since the water pressure of the filled water on the upper surface of the lower cover 13 is turned downward by the action, generates a close contact with the lower surface of the lower cover 13, the water filled in the interior space of the container 10 This prevents leakage to the bottom.

Here, it is preferable that a sealing member is provided at a portion of the lower cover 13 in contact with the lower edge of the lower cover 13 to prevent the water filled in the container from leaking downward.

On the other hand, while putting up to the desired depth as described above, the container 10 filled with water in the inner space is gradually pulled out of the water, and the vertical distribution and density of the microalgae contained in the collected water are examined.

That is, the container 10 is made of a transparent material, and because the scale of the interval is engraved on the outer surface, the vertical distribution state of the microalgae taken at the site can be easily checked on the site, and the microalgae with motility, The movement path of the red tide creatures can be visually confirmed.

On the other hand, microscopic microalgae can be observed with the naked eye because it is possible to visually fertilize the microalgae because of the high density of red, green, yellowish brown, etc., depending on the type of pigments present in the microalgae.

In addition, in the case where the microalgae at a specific depth are to be collected and observed separately, the inner valve 14a of the corresponding discharge pipe 14 of the plurality of discharge pipes 14 mounted on the outer surface of the container 10 is opened. When the outer valve 14b is closed, the collected water is guided to the rear end of the outer valve 14b, and the outer valve 14b is opened while the opened inner valve 14a is closed. Only the quantitative sample collected between 14b) can be easily discharged to the outside to accurately observe and measure the microalgae contained therein.

Here, the valve member (14a) 14b is composed of inner and outer valves (14a, 14b) are mounted at a predetermined distance, the distance between the inner and outer valves (14a, 14b) by adding or subtracting the The sampling amount discharged to the outside from the discharge pipe 14 can be easily adjusted quantitatively.

According to the present invention as described above, the vertical distribution of the microalgae in the desired depth can be observed in detail, and the micro-algae, the highly mobile microalgae, and the red tide organisms can be visually observed by collecting the current in the graduated transparent container. Because of the physiological and ecological characteristics of red tide and toxic plankton, the practical effect can be easily investigated in the field, not in the laboratory.

Claims (2)

In the mesocoses used to visually observe the vertical distribution and vertical circumference of microalgae in the ocean and fresh water, The hollow container 10 made of a transparent material for easy internal observation, and the upper and lower hinge pins (12a, 13a) to be opened and closed to open and close the upper and lower ends of the container (10). And upper and lower cover portions 12 and 13 that interfere with the upper and lower locking jaws 11a and 11b, and valve members 14a and 14b on the outer surface of the graduated container 10 at regular intervals. A plurality of discharge pipes 14 arranged to be arranged, a weight 15 connected to the lower end of the container 10 and a pull connected to the upper cover 12 to open the top outlet of the container 10 at the time of collection; Mesocosm for observation of plankton circumferential motion, characterized by comprising a dragon rope (16). 2. The valve member of claim 1, wherein the valve members 14a and 14b are composed of inner and outer valves 14a and 14b mounted at a predetermined distance, and the distance between the inner and outer valves 14a and 14b. Mesocosm for observation of plankton circumferential motion, characterized in that for quantitatively adjusting the sampling amount discharged to the outside from the discharge pipe 14 by subtracting the size.