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Analisa EC Dan Keasaman Tanah Menggunakan Smart Biosoildam Sebagai Usaha Peningkatan Daya Dukung Lahan Pasir Widiasmadi, Nugroho
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

Tujuan penelitian ini adalah untuk memperbaiki lahan pertanian dengan menganalisa hubungan aktifitas mikroba terhadap tingkat keasaman dan laju infiltrasi tanah pasir yang banyak ters ebar di pantai Selatan Jawa dengan teknologi Smart biosoildam. Metode ini melibatkan aktifitas mikroba sebagai agen hayati pengurai biomasa dan pembenah tanah akan mempengaruhi electrolit konduktifitas (EC) tanah. Variabel lainnya menggunakan paramater kelembapan dan suhu tanah sebagai kontrol secara real time hubungan tersebut. Alat yang digunakan adalah Double Ring Infiltrometer untuk mengukur laju infiltrasi pada tiga jarak radial dari pusat lubang microba (Biohole), Mikrokontroler & Wifi, Sensor Pengukur kandungan garam elektrolit (Electrolit Conductifity) sebagai indikasi kesuburan tanah, sensor pH meter sebagai pengukur derajad keasaman tanah, sensor kelembapan dan suhu tanah. Informasi parameter tanah didapat secara real time melalui input analog dari sensor EC, pH, kelembapan dan temperatur yang diubah menjadi data inofrmasi digital oleh mikrokontroler yang kemudian dikirim melalui wifi. Laju infiltrasi menunjukkan nilai konstan pada tingkat 100 s/d 225 cm/ jam yang dicapai setelah hari ke 20. Sedangkan nilai EC pada kondisi stabil dicapai dihari ke 30 dengan nilai antara 325 - 800 uS/cm. Sehingga aktifitas agen hayati pada tanah Pasir dengan tingkat infiltrasi akan optimal pada hari ke 30.

Analisis Efektifitas Biohole melalui Distribusi Mikroba pada Setiap Kedalaman Secara Real Time pada Tanah Andosol Nugroho Widiasmadi
Journal on Education Vol 5 No 3 (2023): Journal on Education: Volume 5 Nomor 3 Tahun 2023 In Press
Publisher : Departement of Mathematics Education

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This study aims to control the health and fertility of the soil naturally. This study observed over a period of time through a microcontroller sensor the changes in soil parameters such as: soil acidity level, infiltration rate, electrolyte conductivity level and porosity level observed from the soil infiltration rate. Using the simulation method with two (2) types of bioholes, it can be seen the increase in EC at each depth at a certain time period. This method uses Smart Biosoildam (Biodam) technology which can be simulated to match the actual process (real time). From graphic observations and EC standards, it can be seen that the ability of the soil to provide nutrients in the root growth zone can be used as information to determine the schedule and distribution pattern of planting both during the vegetative growth period and the generative growth period. So that it can be known the effective planting distance and biohole distance in order to be able to provide nutrients during the vegetative and generative periods. The distribution of nutrients can be monitored through sensors that convert analog parameters on the microprocessor into digital information that is sent via wifi in real time. Simulation of sandy beach soil fertility based on the number of microbial population = 108/cfu. Variable 1: Soil fertility value of electrolyte conductivity/EC value at a depth of 26 cm from 780 uS/cm to 1438 uS/cm on day 35 and from 1438 uS/cm down to 1290 uS/cm on day 40. Variable 2: Soil fertility values from electrolyte conductivity / EC values at a depth of 24 cm from 750 uS / cm to 1168 uS / cm on day 35 & from 1168 uS / cm down to 1042 uS/cm on day 40.

Sistem Agro Konservasi Smart Biosoildam untuk Peningkatan Daya Dukung Tanah Litosol Nugroho Widiasmadi
Journal on Education Vol 5 No 3 (2023): Journal on Education: Volume 5 Nomor 3 Tahun 2023 In Press
Publisher : Departement of Mathematics Education

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The Civil Engineering Study Program of Ngurah Rai University (UNR) implements the core curriculum by including Material Mechanics as part of the 2020 curriculum. One of the Learning Outcomes of the Material Mechanics Course (CMPK) is that students are expected to be able to determine the core magnitude (kern) of building structure elements. The fulfillment of CMPK is targeted to achieve a minimum of 90% of lecture participants are able to determine the core magnitude (kern) of building structure elements, but the class action Cycle I with the treatment of including detailed and systematic answer substance requests that describe the complete solution of the problem can only increase the CMPK from 60% to 84%. For the purpose of achieving a minimum of 90% CPMK compliance, a Class Action Cycle II d is carried out by treating Cycle I plus providing examples of relevant questions. The evaluation was carried out using the Alternative Assessment Method to assess cognitive, psychomotor (skill) and affective (attitude) aspects. The results of class actions with structured assignment treatment include detailed and systematic requests for answer substance that describe the complete solution of the problem plus the provision of examples of relevant questions can increase the fulfillment of the CMPK of Mechanical Materials for Students of the Civil Engineering Study Program, Ngurah Rai University reaching 92%. This result is expected to be a reference for other eyes in achieving the CMPK reduction target.

Peningkatan Daya Dukung Tanah Litosol melalui Distribusi Mikroba dengan Teknologi Smart Bioosildam Nugroho Widiasmadi
Journal on Education Vol 5 No 3 (2023): Journal on Education: Volume 5 Nomor 3 Tahun 2023 In Press
Publisher : Departement of Mathematics Education

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/joe.v5i3.1821

This study aims to control the health and fertility of the soil naturally. This research was conducted on litosol land used for plantations by observing the distribution pattern of the electrolyte conductivity level at each soil depth through microbial activity. This study observed over a period of time through a microcontroller sensor the changes in soil parameters such as: soil acidity level, infiltration rate, electrolyte conductivity level and porosity level observed from the soil infiltration rate. Using the simulation method with two (2) types of bioholes, it can be seen the increase in EC at each depth at a certain time period. This method uses Smart Biosoildam (Biodam) technology which can be simulated to match the actual process (real time). From graphic observations and EC standards, it can be seen that the ability of the soil to provide nutrients in the root growth zone can be used as information to determine the schedule and distribution pattern of planting both during the vegetative growth period and the generative growth period. So that it can be known the effective planting distance and biohole distance in order to be able to provide nutrients during the vegetative and generative periods. The distribution of nutrients can be monitored through sensors that convert analog parameters on the microprocessor into digital information that is sent via wifi in real time. Simulation of sandy beach soil fertility based on the number of microbial population = 108/cfu. Variable 1: Soil fertility value of electrolyte conductivity/EC value at a depth of 26 cm from 580 uS/cm to 1238 uS/cm on day 35 and from 1238 uS/cm down to 1090 uS/cm on day 40. Variable 2: Soil fertility values from electrolyte conductivity / EC values at a depth of 24 cm from 550 uS / cm to 968 uS / cm on day 35 & from 968 uS / cm down to 842 uS/cm on day 40.

Teknologi Biosoildam untuk Mendukung Sistem Agro Konservasi pada Tanah Laterit Nugroho Widiasmadi
Journal on Education Vol 5 No 3 (2023): Journal on Education: Volume 5 Nomor 3 Tahun 2023 In Press
Publisher : Departement of Mathematics Education

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The objective of this analysis is to improve soil infiltration rate on Laterit agroland with biofertilizer MA-11 on the Biosolids. As a control is original soil without microbial activity triggered. The research was carried out in July to Agustus 2021 at an area of shallot agroland in Blora Districts. The research was to use a double ring infiltrometer to measure soil infiltration with three replications on each distance from Biohole and use electrolyte conductivity meter (EC) to measure soil fertility by salt ion concentration and soil acidity. The measurement was done every five minutes and observation period every fifteen days along forty five days. The results of research show that the highest of infiltration rate, infiltration capacity , fertility & acidity happened on soil which involved Biofertilizer MA-11. The infiltration rate shows a constant value at a level of 57 to 98 cm / hour which is achieved after the 29 th day. Meanwhile, the EC value in stable conditions is achieved on the 29th day with a value between 535 - 785 uS / cm. So that the activity of biological agents on Andosol soil with the infiltration level will be optimal on day 31

Simulasi Populasi Mikroba Menggunakan Teknologi Smart Biosoildam untuk Daya Dukung Tanah Margel Nugroho Widiasmadi
Journal on Education Vol 5 No 3 (2023): Journal on Education: Volume 5 Nomor 3 Tahun 2023 In Press
Publisher : Departement of Mathematics Education

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This study aims to determine the ability of the margel soil layer to distribute nutrients and restore soil health and fertility due to the use of chemical fertilizers and pesticides. This method uses Smart Biosoildam (Biodam) technology which can be simulated to match the actual process (real time). From the observation of graphs and EC standards it can be seen that the ability of the soil to lower the level of acids and increase fertility. Janis this soil until day 42 the soil fertility rate has not reached = 900 uS/cm with microbial populations = 10 3/cfu to support the vegetative growth period as well as in the generative growth period, so that we will know when is the right time to do: soil recovery through nutrient infiltration, early planting of bulbs/flowers/fruits can begin to be conditioned. until mature based on nutritional value observed through sensors that convert analog parameters by the microcontroller into digital information transmitted via WiFi in real time. The initial condition before the simulation of soil fertility values with EC parameters was 444 uS/cm, the simulation results were: Simulation 1 : Nutrient content for generative growth was achieved on day 27 with fertility rate = 1025 uS/cm with Microbial Population 10 8/cfu. Simulation 2: Nutrient content for generative growth was achieved on day 42 at fertility rate = 1100 uS/cm with microbial population = 105/cfu. Simulation 3: the content of nutrients for generative growth cannot be observed

ANALISA DISTRIBUSI MIKROBA PADA SETIAP KEDALAMAN TANAH LATERIT LAHAN TANAMAN KOPI DENGAN TEKNOLOGI BIOSOILDAM Nugroho Widiasmadi
Jurnal Cahaya Mandalika ISSN 2721-4796 (online) Vol. 4 No. 2 (2023): Jurnal Cahaya Mandalika
Publisher : Institut Penelitian Dan Pengambangan Mandalika Indonesia (IP2MI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/jcm.v4i2.1437

This study aims to test Superbokashi to control soil health and fertility naturally. This research was conducted on land with lateritic soil structures used for coffee plantations by observing the distribution pattern of Electrolyte conductivity levels at each soil depth through microbial activity. Where it spreads through two types of bioholes, namely horizontal and vertical bioholes. This study observed over a period of time through a microcontroller sensor the changes in soil parameters such as: soil acidity level, infiltration rate, electrolyte conductivity level and porosity level which were observed from the soil infiltration rate. Using the simulation method with two (2) types of bioholes, it can be seen the increase in EC at each depth over a certain period of time. This method uses Smart Biosoildam (Biodam) technology which can be simulated to match the actual process (real time). From the observation of the graphs and EC standards, it can be seen that the ability of the soil to provide nutrients in the root growth zone can be used as information to determine the schedule and pattern of planting distribution both during the vegetative growth period and the generative growth period. So that it can be known the effective spacing and biohole spacing in order to be able to provide nutrition during the vegetative and generative periods. The distribution of nutrients can be monitored through sensors that convert analog parameters on the microprocessor into digital information that is sent via wifi in real time. Simulation of sandy beach soil fertility based on microbial population = 108/cfu. Variable 1: The soil fertility value of the electrolyte conductivity/EC value at a depth of 26 cm from 650 uS/cm to 1338 uS/cm on day 35 and from 1338 uS/cm decreased to 1090 uS/cm on day 40. Variable 2: Soil fertility values from electrolyte conductivity / EC values at a depth of 24 cm from 650 uS / cm to 1268 uS / cm on day 35 & from 1368 uS / cm decreased to 1142 uS / cm on day 40.

OPTIMASI EC PADA TANAH CLAY UNTUK LAHAN BAWANG MERAH MELALUI SIMULASI POPULASI MIKROBA MENGGUNAKAN TEKNOLOGI SMART BIOSOILDAM Nugroho Widiasmadi
Jurnal Cahaya Mandalika ISSN 2721-4796 (online) Vol. 4 No. 2 (2023): Jurnal Cahaya Mandalika
Publisher : Institut Penelitian Dan Pengambangan Mandalika Indonesia (IP2MI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/jcm.v4i2.1440

This study aims to determine the ability of the soil layer to distribute nutrients and restore soil health and fertility due to the use of chemical fertilizers and pesticides. Through controlled microbial activity by spreading through horizontal bioholes, through a microcontroller, this research observes in a period of time the changes in: soil acidity, infiltration rate, electrolyte conductivity level and porosity level through this is done on clay soil, especially for vegetable plantations, soil infiltration rate . Using a simulation method with variable microbial populations, the level of electrolyte conductivity (EC) and other parameters can be determined. This method uses Smart Biosoildam (Biodam) technology which can be simulated to match the actual process (real time). From the observation of the chart and the EC standard, it can be seen that the soil's ability to reduce acid levels and increase fertility. This type of soil until the 45th day the soil fertility level has not reached = 700 uS/cm with a microbial population = 10 3 / cfu to support the vegetative growth period as well as during the generative growth period, so we will know when is the right time to carry out: soil restoration through infiltration of nutrients, early planting of tubers/flowers/fruits can be conditioned. until cooked based on the nutritional value observed through a sensor that converts analog parameters by the microcontroller into digital information sent via wifi in real time. The initial conditions before simulating soil fertility values with EC parameters were 344 uS/cm, the simulation results were: Simulation 1: The nutrient content for generative growth was reached on day 27 with a fertility level of = 825 uS/cm with a Microbial Population of 10 8 / cfu. Simulation 2: Nutrient content for generative growth was achieved on day 45 at fertility level = 900 uS/cm with microbial population = 105/cfu. Simulation 3: nutrient content for generative growth cannot be observed.

SISTEM AGRO-KONSERVASI LAHAN SAWIT DENGAN BIOSOILDAM UNTUK PENINGKATAN DAYA DUKUNG TANAH INSEPTISOL Nugroho Widiasmadi
Jurnal Cahaya Mandalika ISSN 2721-4796 (online) Vol. 4 No. 2 (2023): Jurnal Cahaya Mandalika
Publisher : Institut Penelitian Dan Pengambangan Mandalika Indonesia (IP2MI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/jcm.v4i2.1441

The objective of this analysis improvement of soil infiltration rate on Litosol agroland fo pady field with involve biofertilizer MA-11 on the Biosoildam. As a control is original soil without microbial activity triggered. The research was carried out on July to Agustus 2021 at area of shallot agroland in Blora Districts. The research was use double ring infiltrometer to measure soil infiltration with three replication on each distance from Biohole and use electrolit conductivity meter (EC) to measure soil fertility by salt ion consentration and soil acidity. The measurement was done in every five minute and observtian periode every fifteen days along forty five days. The result of research show that the highest of infiltration rate, infiltration capacity , fertility & acidity was happened on soil with involve Biofertilizer MA-11. The infiltration rate shows a constant value at a level of 237 to 327 cm / hour which is achieved after the 29 th day. Meanwhile, the EC value in stable conditions is achieved on the 29th day with a value between 935 -1385 uS / cm. So that the activity of biological agents on Andosol soil with the infiltration level will be optimal on day 32.

SISTEM AGROKONSERVASI PERTANIAN PADI PADA TANAH LITOSOL DENGAN IOT SMART BIOSOILDAM Nugroho Widiasmadi
Jurnal Cahaya Mandalika ISSN 2721-4796 (online) Vol. 4 No. 2 (2023): Jurnal Cahaya Mandalika
Publisher : Institut Penelitian Dan Pengambangan Mandalika Indonesia (IP2MI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/jcm.v4i2.1442

The objective of this analysis improvement of soil infiltration rate on Litosol agroland fo pady field with involve biofertilizer MA-11 on the Biosoildam. As a control is original soil without microbial activity triggered. The research was carried out on July to Agustus 2021 at area of shallot agroland in Blora Districts. The research was use double ring infiltrometer to measure soil infiltration with three replication on each distance from Biohole and use electrolit conductivity meter (EC) to measure soil fertility by salt ion consentration and soil acidity. The measurement was done in every five minute and observtian periode every fifteen days along forty five days. The result of research show that the highest of infiltration rate, infiltration capacity , fertility & acidity was happened on soil with involve Biofertilizer MA-11. The infiltration rate shows a constant value at a level of 237 to 327 cm / hour which is achieved after the 29 th day. Meanwhile, the EC value in stable conditions is achieved on the 29th day with a value between 935 -1385 uS / cm. So that the activity of biological agents on Andosol soil with the infiltration level will be optimal on day 32.

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