JP2014035700A - Crop cultivation information sharing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a crop cultivation information sharing system capable of supporting users of a community garden to create cultivation plan of crops by sharing and mutually utilizing cultivation information of crops among the users cultivating crops in neighboring blocks.SOLUTION: A cultivation information sharing server includes: user information storage means that registers a block ID of a block in a community garden and a user ID of a user associating with each other as a piece of user information; block-base cultivation information storage means that, receiving a user ID and a piece of cultivation information from an information input/display terminal, obtains a corresponding block ID referring to the user information based on the user ID, and registers the cultivation information while classifying the information based on the block as block-base cultivation information; block-based cultivation information obtaining means that obtains, receiving a display request of the cultivation information from an information input/display terminal, a corresponding block ID referring to the user information and the block-based cultivation information of the block and blocks neighboring the block; and display means that displays the obtained block-based cultivation information on the information input/display terminal.

Description

  INDUSTRIAL APPLICABILITY The present invention is based on the use of crop cultivation information to support a user's crop cultivation plan in a farmland (hereinafter abbreviated as “citizen plantation”) in which one farmland is divided and used by those who wish to use farmland. It is about the system.

  In recent years, the use of civic farms has been spreading as a recreation means for residents living mainly in urban areas. Citizen farms are generally located in the suburbs of the city, and users residing in urban areas regularly visit here to cultivate their own selected crops. Most of the users of such farms are usually employed in professions that have nothing to do with agriculture, or who have a life unrelated to agriculture, and are very unfamiliar with the cultivation of crops. is there. For this reason, information is collected from specialized books and the Internet, and cultivation plans are formulated and executed with the support of farmers who provide civic farms.

Citizen farms are expanding year by year, coupled with growing interest in food and natural consciousness. Along with this, various proposals have been made to enable users who are unfamiliar with agriculture to easily use the civic farm.
For example, in Patent Document 1, a user who does not have the materials and facilities necessary for the cultivation and breeding of animals and plants issues instructions to the performer via the communication network regarding the work related to the cultivation and breeding of animals and plants, and the cultivation and breeding of animals and plants are performed. A remote instruction system using a network and an execution terminal that can be used to enjoy the product have been proposed.

JP 2001-331551 A

However, in the above-mentioned proposal, the user can easily experience agriculture, but the experience is pseudo, and the user cannot actually touch the soil or perform work.
On the other hand, in general, citizen farms use farms and farms that are suitable for planting certain types of crops, such as tapes and landmarks, in a number of small sections so that users can easily use them. It is divided into two, and it is lent out by allocating one section to the user. The user individually cultivates the crops individually in the section assigned to the user himself / herself. Many users are unfamiliar with the cultivation of agricultural crops, and small plots are adjacent to each other, so the crops grown by users may be affected by the agricultural chemicals and fertilizers used in the adjacent plots. is there. In addition, when a pest or disease occurs in an adjacent section, the pest will be transferred to the crop that the user is cultivating, or the environment will be similar, and the same disease will occur in the user's section. Is concerned.
In addition, cultivation of agricultural products requires various know-how regarding cultivation depending on the types of agricultural products, the nature of the planted land, the climate, and the like. Adjacent plots in a citizen's farm can use common know-how related to cultivation because the properties and climate of the land are basically the same. However, in general farms, each user's own section is generally managed individually, and the know-how on cultivation of crops between adjacent sections is shared between users. The environment is not in place.

  Here, it is considered that the above-mentioned problem can be solved if users who use adjacent sections in the civic farm visit the civic farm at the same time and communicate directly. However, since the civic farm is usually located in a suburb slightly away from the city center where the user lives, not all users can visit the civic farm frequently. For this reason, in order for users to communicate with each other, it is necessary to create a mechanism for that purpose.

  An object of the present invention is that users who are cultivating crops in adjacent sections in a civic farm or the like share the cultivation information of each cultivated crop and use it mutually, so that the user's crop It is to provide a cultivation information utilization system for crops that supports the cultivation plan of the farm.

In order to achieve the above object, the crop cultivation information utilization system of the present invention is a crop cultivation information utilization system provided with a cultivation information sharing server that can be connected to each of the information input display terminals of the user through a communication network. Because
The cultivation information sharing server is
User information storage means that associates and registers the section ID of the farm section and the user ID of the user as user information;
When receiving cultivation information including the user ID, the date or name of the work or event to be recorded, and the recording content from the information input display terminal, the corresponding section is referred to the user information based on the user ID and corresponds. A section-specific cultivation information storage means that obtains an ID and classifies the cultivation information for each section and registers it as section-specific cultivation information based on the acquired section ID;
Means for referring to the section-specific cultivation information stored in the section-specific cultivation information storage means and determining whether or not information on fertilizer pesticides is included;
When receiving a display request for cultivation information together with a user ID from the information input display terminal, the corresponding section ID is acquired with reference to the user information based on the user ID, and the section and the section based on the acquired section ID The section-specific cultivation information acquisition means for acquiring the section-specific cultivation information of the section adjacent to the section;
Display means for displaying the acquired cultivation-specific cultivation information on the information input display terminal.

Furthermore, the cultivation information sharing server
Means for determining whether or not information on fertilizer or pesticide is included in the record content of the cultivation information;
When information on fertilizer or pesticide is included, a section ID is acquired together with information on the fertilizer or pesticide, and the fertilizer pesticide information recording means for further registering the growth status of the section of the acquired section ID as fertilizer pesticide information When,
When a display request for fertilizer and agrochemical information is received together with a user ID from the information input display terminal, the corresponding section ID is acquired with reference to the user information based on the user ID, and the section based on the acquired section ID And fertilizer pesticide information acquisition means for acquiring the fertilizer pesticide information of the section adjacent to the section;
Display means for displaying the acquired fertilizer pesticide information on the information input display terminal.

Furthermore, the cultivation information sharing server
Meteorological environment information storage means for receiving meteorological environment information acquired by an environmental sensor installed for each plantation, and registering the received meteorological environment information as plant environment information in association with the date and the plantation,
When receiving a request for display of plant environment information from the information input display terminal, a display unit is provided for acquiring the plant environment information and displaying the acquired plant environment information on the information input display terminal.

  According to the crop cultivation information utilization system of the present invention, users who are cultivating crops in adjacent plots in a citizen's farm share the cultivation information of each cultivated crop and use them mutually. By doing so, the cultivation plan of the user's crop can be supported, and further communication between users can be promoted.

It is a figure which shows an example of a structure of the cultivation information utilization system of the crop which concerns on embodiment of this invention. It is a functional block diagram which shows roughly an example of a structure of a weather environment information acquisition part. It is a functional block diagram which shows roughly an example of a structure of a cultivation information sharing server. It is a figure which shows an example of the data structure registered into user information data. It is a figure which shows an example of the data structure registered into the cultivation information data according to division. It is a figure which shows an example of the data structure registered into plantation environment information data. It is a figure which shows an example of the data structure registered into the fertilizer agricultural chemical data.

Hereinafter, a crop cultivation information utilization system according to an embodiment of the present invention will be described in detail with reference to the drawings.
The crop cultivation information utilization system of the present invention is realized by using a computer, and each process or means reads a program that requires a CPU (Central Processing Unit) of the computer into a memory. It is a process or means realized by executing.

FIG. 1 is a diagram illustrating an example of a configuration of a crop information utilization system according to an embodiment of the present invention. As shown in FIG. 1, the crop cultivation information utilization system includes a cultivation information sharing server 101 and the user inputs the cultivation information of the crop, and transmits the inputted cultivation information of the crop to the cultivation information sharing server 101. Or the information input display terminal 102 for searching and referring to the cultivation information of other crops stored in the cultivation information sharing server 101 and the natural environment around the civic plantation, and obtaining the observed information And a weather environment information acquisition unit 103 for transmitting to the cultivation information sharing server 101 as weather environment information. Here, the cultivation information sharing server 101, the information input / display terminal 102, and the weather environment information acquisition unit 103 are communicably connected via a communication network such as the Internet.
The information input display terminal 102 is a portable information terminal such as a mobile phone or a smartphone, or an information terminal such as a personal computer. The operation of the information input display terminal 102 by the user is performed using an arbitrary input means such as a keyboard, a touch panel, a button, or a remote controller that is an input means attached to the main body of the information input display terminal 102.

FIG. 2 is a functional block diagram schematically illustrating an example of the configuration of the weather environment information acquisition unit 103. As shown in FIG. 2, the weather environment information acquisition unit 103 includes an information processing unit 701 and various environmental monitoring sensors such as a thermometer, anemometer, solar radiation meter, and rain gauge for observing the weather environment around the farm. It is comprised from the environment sensor part 702 provided with. Various environmental monitoring sensors may be known ones.
Furthermore, the information processing unit 701 includes an information acquisition unit 703 for acquiring information measured by the environment sensor unit 702 at a preset time, and the information acquired by the information acquisition unit 703 as weather environment information as a cultivation information sharing server And a communication unit 704 for transmitting to the terminal 101. Here, the information acquisition unit 703 acquires information observed by the environment sensor unit 702, for example, in response to a weather environment information acquisition request from the cultivation information sharing server 101, and communicates to the cultivation information sharing server 101 as weather environment information. It may be configured to transmit via the unit 704.

  FIG. 3 is a functional block diagram schematically showing an example of the configuration of the cultivation information sharing server 101. As illustrated in FIG. 3, the cultivation information sharing server 101 includes an information input / output WEB page display unit 201, an environment information management unit 202, a cultivation information management unit 203, an information sharing management unit 204, and various pieces of information data. It is comprised from the memory | storage part 205 which stored (it mentions later for details). Here, the storage unit 205 includes, as data of various types of information, at least user information data 206 in which user information, which is information on a farm user, is registered in advance, and cultivation by section in which cultivation information for each section of the citizen farm is registered. Information data 207, plantation environment information data 208 in which the environment information received from the environment information acquisition unit 103 is registered, and fertilizer pesticides in which fertilizer pesticide information is registered, which is the application status of fertilizer and agrochemical for each section and the growth of the crop Data 209 is stored.

  The information input / output WEB page display unit 201 communicates with the information input display terminal 102 via a communication network such as the Internet, and the user is attached to the information input display terminal 102 in the display unit included in the information input display terminal 102. Using the input means to input and output the date and name of the work or event to be recorded by the user and the cultivation information (details will be described later) including the recorded contents, or plant environment information (details will be described later) ) Etc. are displayed. Here, the cultivation information input from the display screen of the information input display terminal 102 is sent to the cultivation information management unit 203 by the information input / output WEB page display unit 201. Also, the farm environment information output on the display screen is the information input / output WEB page display unit 201 requests the information sharing management unit 204 to register the information registered in the various information data stored in the storage unit 205. The acquired information is output and displayed on the display screen of the information input display terminal 102 by the information input / output WEB page display unit 201.

When the cultivation information management unit 203 acquires a user ID (Identifier) (details will be described later) and the cultivation information from the information input / output WEB page display unit 201, the user information in the storage unit 205 is acquired based on the acquired user ID. By referring to data 206 (details will be described later), the section ID of the corresponding user information is acquired. Based on the acquired section ID, the cultivation information is classified for each section, and is registered in the section-specific cultivation information data 207 of the storage unit 205 as the section-specific cultivation information.
Further, when the cultivation information management unit 203 acquires the fertilizer and agrochemical information including the growth information of the crop from the information input / output WEB page display unit 201, the fertilizer and agrochemical data 209 in the storage unit 205 is referred to based on the acquired information. And update the corresponding fertilizer pesticide information.

When the information sharing management unit 204 is requested to acquire the cultivation information together with the user ID from the information input / output WEB page display unit 201, the information sharing management unit 204 refers to the user information data 206 of the storage unit 205 based on the user ID in response to the request. The section ID of the corresponding user information is acquired. Based on the acquired section ID, the section-specific cultivation information of the corresponding section and its neighboring adjacent sections is acquired from the section-specific cultivation information data 207 of the storage unit 205. Here, the information sharing management unit 204 determines whether or not the acquired information is information that can be disclosed to others other than the user, that is, information that can be shared with others. Judgment will be made with reference to (details will be described later). As a result of the determination, only shareable information is extracted from the acquired information, and the extracted information is returned to the information input / output WEB page display unit 201.
Further, when the information sharing management unit 204 is requested to acquire the farm environment information together with the user ID from the information input / output WEB page display unit 201, the user information data 206 of the storage unit 205 is obtained based on the user ID in response to the request. To obtain the section ID of the corresponding user information. Based on the acquired section ID, the plant environment information data 208 in the storage unit 205 is referred to, and corresponding plant environment information is acquired. The acquired plant environment information is returned to the information input / output WEB page display unit 201.
Furthermore, when the information sharing management unit 204 is requested to acquire fertilizer pesticide information, which is information related to the state of growth of the crop by fertilizer or pesticide, from the information input / output WEB page display unit 201 together with the user ID, Based on the above, the user information data 206 in the storage unit 205 is referred to, and the section ID of the corresponding user information is acquired. Based on the acquired section ID, the fertilizer pesticide data 209 in the storage unit 205 is referred to, and the fertilizer pesticide information of the user's section corresponding to the section ID and its neighboring adjacent sections is acquired. The acquired fertilizer pesticide information is returned to the information input / output WEB page display unit 201.

  The environment information management unit 202 registers the weather environment information received from the weather environment information acquisition unit 103 via the communication network in the plant environment information data 208 stored in the storage unit 205 as plant environment information.

Next, data of various types of information stored in the storage unit 205 will be described with reference to FIGS.
FIG. 4 is a diagram illustrating an example of a data configuration registered in the user information data 206. In the user information data 206, information on plant users is registered in advance. As shown in FIG. 4, the user information data 206 includes a user ID 301, a branch number 302, a section ID 304, and a contract period 305.
In the user ID 301, for example, “2009001” is registered as an identification code indicating a name that uniquely identifies the user. The branch number 302 is used for management when one user uses a plurality of sections or intermittently uses a section. Therefore, the branch number 302 is assigned with a branch number for dividing the user ID. For example, “0” is assigned to the branch number 302 at the first use, and when the partition is additionally used, or the use is interrupted. When restarting, registration is performed by adding a number obtained by adding 1 to the branch number 302 assigned last time. In the name 303, the name of the user is registered as, for example, “XXXXX”. In the section ID 304, for example, an identification code indicating a name that uniquely identifies the section is registered as “1-2”. The section ID is shown in the form of ◯ − ×, where the first half is an identification code indicating the entire target farm, and the second half is an identification code indicating each section in the farm. In the contract period 305, the contract period in which the user contracts the section is registered as, for example, “2009.1-12010.1”.

FIG. 5 is a diagram showing an example of a data configuration registered in the section-specific cultivation information data 207. As shown in FIG. 5, the cultivation information data 207 classified by section is composed of a section ID 401, a history NO 402, a user ID 403, a date 404, a target 405, a type 406, and a content 407. Information about cultivation is classified and registered for each section in a time series.
In the section ID 401, for example, an identification code indicating a name for uniquely specifying the same section as described above is registered as “1-2”. In the history NO 402, numbers are assigned and registered in the order in which information is registered. In the user ID 403, an identification code indicating a name for uniquely identifying the same user as described above is registered. The user ID 403 registered here is the user who registered the information. In the date 404, for example, “2012.4.3” is registered as the date when the user performed work or confirmed information such as an event that occurred. In the object 405, for example, an item for specifying an object of information is registered as “field” for operations and events for all sections, and the name of the crop is registered as “spinach” for operations and events related to the crops.
In the type 406, what kind of information is registered is registered. The type 406 is information for determining whether or not information can be shared. For example, in the case of the history information of the work actually performed by the user in the section, it is registered as “work”, and in the case of recording the event confirmed or noticed by the user in the section, it is registered as “information”. In the case of information that is not desired to be disclosed to others other than the user and information that is not desired to be shared with others, “memo” is registered. By registering this, it becomes possible to classify information that can be made public and information that cannot be made public to others other than the user, and the cultivation information by section acquired by the information sharing management unit 204 can be classified by others. It is possible to determine whether or not sharing is possible. For example, when only “memo” of information registered in the type 406 is information that cannot be disclosed, the information sharing management unit 204 extracts only information other than “memo” from the acquired information, The extracted information is returned to the information input / output WEB page display unit 201.
In the contents 407, specific work recording contents and information recording contents are registered as, for example, “fertilizer A” or “pest C generation”.

  Here, when the user searches for the cultivation information of the crop from the information input display terminal 102 via the information input / output WEB page display unit 201, items registered in the target 405, the type 406, and the content 407 It becomes easy to perform a search from the user by listing in advance. In addition, in this way, by cultivating information on crops in the section-specific cultivation information data 207, it is possible to easily organize and record the cultivation know-how of the user's own crops. By publishing information to others other than the user, the cultivation know-how of the crop can be easily shared. On the other hand, the user can also know information on the cultivation history of the crops that have been cultivated in his own section and information on the crops cultivated in the surrounding sections.

FIG. 6 is a diagram illustrating an example of a data configuration registered in the plant environment information data 208. As shown in FIG. 6, the plant environment information data 208 includes date 501, time 502, plantation ID 503, temperature 504, humidity 505, wind speed 506, wind direction 507, solar radiation 508, and precipitation 509. The weather environment information received by the environment information management unit 202 of the cultivation information sharing server 102 from the weather environment information acquisition unit 103 is registered as plant environment information.
In the date 501, the date when the weather environment information is measured is registered as “2011.4.1”, for example. In the time 502, the time when the weather environment information is measured is registered as, for example, “10:00”. In the farm ID 503, an identification code for uniquely identifying the farm is registered. The farm ID 503 is registered using an identification code indicating the entire farm of the section ID described above. Here, the reason for registering for each farm, not for each section, is that it is more efficient to manage the information for each farm because information about the weather environment is less likely to differ for each section. The temperature 504, the humidity 505, the wind speed 506, the wind direction 507, the solar radiation 508, and the precipitation 509 numerically indicate the weather environment information, for example, “10.1 ° C.” “51 % ”,“ 2.2 m ”,“ north-northwest ”,“ 2.31 MJ / m ² ”, and“ 0 mm ”.

FIG. 7 is a diagram illustrating an example of a data configuration registered in the fertilizer pesticide data 209. As shown in FIG. 7, the fertilizer pesticide data 209 includes a date 601, a section ID 602, a fertilizer 603, an agrochemical 604, and a growth state 605.
When the cultivation information management unit 203 registers the cultivation information data 207 classified by section, the fertilizer pesticide data 209 refers to the contents 407 of the cultivation information data 207 classified by section and determines whether or not information on fertilizer or agrochemicals is included. to decide. As a result of the determination, if information on fertilizer or agricultural chemical is included, the section ID 401 and the content 407 of the section-specific cultivation information data 207 are acquired, and the new fertilizer is associated with the growth status and date of the section of the section ID 401 Registered in fertilizer pesticide data 209 as pesticide information. If the information on fertilizer or pesticide is not included as a result of the determination, the information is not registered. Further, the user or the supervisor of the plantation periodically checks the growth state of the crop visually and inputs the confirmed date and the growth state of the crop through the information input / output WEB page display unit. The input information is acquired in the fertilizer pesticide data 209 as fertilizer pesticide information including the growth status of the crop, and information on the date 601 and the growth status 605 is updated and registered. Here, the plantation supervisor is a person who performs overall maintenance management of the plantation, and periodically looks around the plantation to check the growth status of the crop as an assistant to the user.

  In the date 601, the date when the user or the plantation supervisor visually confirms the growth state of the crop is registered as “2011.4.1”, for example. In the section ID 602, the section ID 401 acquired from the section-specific cultivation information data 207 is registered. In the fertilizer 603, the type of the spread fertilizer extracted from the contents 407 of the section-specific cultivation information data 207 is registered as, for example, “fertilizer A, nitrogen”. In the fertilizer 603, not only the fertilizer name but also the fertilizer type may be registered. In the pesticide 604, the type of sprayed pesticide extracted from the contents 407 of the section-specific cultivation information data 207 is registered as, for example, “Pesticide A”. If no information on pesticides is extracted, it is assumed that no pesticides are sprayed and “None” is registered. In the growth state 605, the growth state of the crop is visually confirmed by the user or the plant supervisor, and the confirmed growth state is registered as, for example, “smooth” or “abnormal”. Here, “abnormal” refers to leaf decay, leaf fall, leaf color change, or the like.

By referring to the fertilizer pesticide information registered in the fertilizer pesticide data 209 shown in FIG. 7, the user can confirm the difference in the growth situation of the crop due to the application of the fertilizer or the pesticide for each section. .
For example, as shown in FIG. 7, when the section ID 602 is “1-1” and the adjacent section ID 602 is “1-2”, the fertilizer and the pesticide are obtained from the fertilizer 603 and the pesticide 604 corresponding to each section ID 602. The spread division ID 602 is “1-1”, the corresponding growth status 605 is “smooth”, and the growth status 605 corresponding to “1-2” where the fertilizer and pesticide are not sprayed is “bad”. Therefore, it can be determined that there is no influence on each section due to the application of fertilizer and pesticide. When the section ID 602 is “2-1”, the fertilizer is “fertilizer B, silicon” and the pesticide is sprayed with “pesticidal A” from the corresponding fertilizer 603, pesticide 604, and growth state 605. "Abnormality" was observed in the growth status of the plant. However, the application of “Pesticide A” was stopped and “Fertilizer C” was sprayed from the fertilizer 603 corresponding to “2-1” in the section ID 602 of the date 601 thereafter, the agricultural chemical 604, and the growth status 605. Since it can be confirmed that the state of growth of the crop is “smooth”, it can be seen that “fertilizer C” is suitable for cultivation of the crop with the section ID “2-1”. From this, it can be seen that there are pesticides and fertilizers suitable or unsuitable for each section, although the effects of fertilizers and pesticides are low on the section adjacent to the user section.

  As described above, according to the present invention, it is possible to easily organize and accumulate the cultivation know-how of the user's own crop by recording the cultivation information of the crop as data. On the other hand, by sharing crop cultivation information with other users, it is possible to determine the cultivation policy for crops in the user's own section with reference to the cultivation information of the other section adjacent to the user's own section. Can do. In addition, it is possible to grasp the situation of cultivation from the cultivation information of the crops around the user's section, and to make it a document for examining a method for dealing with the problem. Furthermore, the cultivation history can be easily grasped from the past cultivation information of the crop, and the user can determine the cultivation policy of the crop based on the history. In addition, the sharing of crop cultivation information can be expected to have an effect of promoting communication between farm users in addition to the above-described effects related to crop cultivation.

DESCRIPTION OF SYMBOLS 101 Cultivation information sharing server 102 Information input / output terminal 103 Weather environment information acquisition part 201 Information input / output WEB page display part 202 Environmental information management part 203 Cultivation information management part 204 Information sharing management part 205 Storage part
206 User information data
207 Cultivation information data by section
208 Farm environment information data
209 Fertilizer pesticide data 701 Information processing unit 702 Environmental sensor unit 703 Information acquisition unit 704 Communication unit

Claims (3)

A cultivation information utilization system for agricultural crops equipped with a cultivation information sharing server that can be connected to each of the user's information input display terminals via a communication network,
The cultivation information sharing server is
User information storage means that associates and registers the section ID of the farm section and the user ID of the user as user information;
When receiving cultivation information including the user ID, the date or name of the work or event to be recorded, and the recording content from the information input display terminal, the corresponding section is referred to the user information based on the user ID and corresponds. A section-specific cultivation information storage means that obtains an ID and classifies the cultivation information for each section and registers it as section-specific cultivation information based on the acquired section ID;
Means for referring to the section-specific cultivation information stored in the section-specific cultivation information storage means and determining whether or not information on fertilizer pesticides is included;
When receiving a display request for cultivation information together with a user ID from the information input display terminal, the corresponding section ID is acquired with reference to the user information based on the user ID, and the section and the section based on the acquired section ID The section-specific cultivation information acquisition means for acquiring the section-specific cultivation information of the section adjacent to the section;
A crop cultivation information utilization system comprising: a display unit configured to display the acquired cultivation-specific cultivation information on the information input display terminal. The cultivation information sharing server further includes
Means for determining whether or not information on fertilizer or pesticide is included in the record content of the cultivation information;
When information on fertilizer or pesticide is included, a section ID is acquired together with information on the fertilizer or pesticide, and the fertilizer pesticide information recording means for further registering the growth status of the section of the acquired section ID as fertilizer pesticide information When,
When a display request for fertilizer and agrochemical information is received together with a user ID from the information input display terminal, the corresponding section ID is acquired with reference to the user information based on the user ID, and the section based on the acquired section ID And fertilizer pesticide information acquisition means for acquiring the fertilizer pesticide information of the section adjacent to the section;
The crop cultivation information utilization system according to claim 1, further comprising display means for displaying the acquired fertilizer pesticide information on the information input display terminal. The cultivation information sharing server further includes:
Meteorological environment information storage means for receiving meteorological environment information acquired by an environmental sensor installed for each plantation, and registering the received meteorological environment information as plant environment information in association with the date and the plantation,
When receiving a request for display of plant environment information from the information input display terminal, the plant includes the display unit that acquires the plant environment information and displays the acquired plant environment information on the information input display terminal. The crop cultivation information utilization system according to claim 1 or 2.

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