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Simulation of The Number of Microbial Populations For Fertility Optimization In Clay Soils Using Smart Biosoidam Technology Nugroho Widiasmadi
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on clay soils, especially for vegetable plantations, aimed 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 microbial activity that is controlled by spreading through a horizontal biohole, this study observes in real time through a micro controller the changes in soil acidity, infiltration rate, electrolyte conductivity levels and porosity levels through soil infiltration rates. Through simulations with the variable microbial population, it can be seen the level of EC and other parameters against the time of observation in real time. From the observations of graphs and EC standards, it can be seen that the ability of the soil to because until day 45 the soil fertility level has not reached = 1500 uS / cm with a microbial population = 103/ cfu. support the planting schedule both during the vegetative growth period and during the generative growth period, so that we will know when is the right time to do: soil recovery, initial planting and when the tubers / flowers / fruit begin to be conditioned. until cooked based on nutrient values observed through sensors that convert analog parameters by the micro controller into digital information transmitted by wifi in real time. The initial condition before simulating the soil fertility value with the Electrolyte Conductivity (EC) parameter is 744 uS / cm, the simulation results are: Simulation 1: nutrient content for generative growth was achieved on day 27 with fertility level = 1525 uS / cm with Microbial Population 10 8 / cfu. Simulation 2: nutrient content for generative growth was achieved on day 42 at the fertility level = 1500 uS / cm with microbial population = 10 5/ cfu. Simulation 3: nutrient content for generative growth cannot be observed

Analisis Efektifitas Biohole Melalui Distribusi Mikroba pada Setiap Kedalaman Secara Real Time pada Tanah Grumosol Nugroho Widiasmadi
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

Penelitian ini bertujuan untuk mengontrol kesehatan dan kesuburan tanah secara alami. Penelitian ini dilakukan pada lahan grumosol yang dimanfaatkan untuk perkebunan dengan mengamati pola sebaran tingkat konduktifitas Electrolit tiap kedalaman tanah melalui aktivitas mikroba. Dimana penyebarannya melalui dua jenis biohole, yaitu biohole horizontal dan vertikal. Penelitian ini mengamati dalam periode waktu melalui sensor mikrokontroler terhadap perubahan perparameter tanah seperti: tingkat keasaman tanah, laju infiltrasi, tingkat konduktivitas elektrolit dan tingkat porositas yang diamati dari tingkat laju infiltrasi tanah. Menggunakan metode simulasi dengan dua (2) jenis biohole, maka dapat dilihat peningkatan EC di setiap kedalaman pada periode waktu tertentu. Metode ini menggunakan teknologi Smart Biosoildam (Biodam) yang dapat disimulasikan menyamai dengan proses sebenarnya (real time). Dari pengamatan grafik dan standar EC terlihat bahwa kemampuan tanah dalam menyediakan unsur hara pada zona pertumbuhan akar dapat dijadikan informasi untuk menetapkan jadwal dan pola sebaran tanam baik pada masa pertumbuhan vegetatif maupun masa pertumbuhan generatif. Sehingga dapat diketahui jarak tanam dan jarak biohole yang efektif agar mampu memberikan nutrisi pada masa vegetatif dan generatif. Penyebaran nutrisi dapat dipantau melalui sensor yang mengubah parameter analog pada mikro prosesor menjadi informasi digital yang dikirimkan melalui wifi secara real time. Simulasi kesuburan tanah pantai pasir berdasarkan jumlah populasi mikroba = 108/cfu. Variabel 1: Nilai kesuburan tanah dari nilai electrolyte conductivity/EC pada kedalaman 26 cm dari 450 uS/cm menjadi 1138 uS/cm pada hari ke 35 dan dari 1138 uS / cm turun menjadi 990 uS / cm pada hari ke 40. Varibale 2: Nilai kesuburan tanah dari nilai konduktivitas elektrolit / EC pada kedalaman 24 cm dari 450 uS / cm hingga 868 uS / cm pada hari ke 35 & dari 868 uS / cm turun menjadi 742 uS/cm pada hari ke-40.

Analysis of The Relationship Between Microbial Activities In Inseptisol Soil Towards Infiltration Rate for Fertility Improvement With Biosoildam Technology for Pepper Plantation Widiasmadi, Nugroho
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on Inseptisol soils, especially for pepper plantation, aimed at restoring soil health and fertility due to the use of chemical fertilizers and pesticides. Through controlled microbial activity through biohole. This study observes periodically changes in soil acidity, infiltration rate and electrolyte conductivity levels around the center of the biohole as the center of microbial distribution. As a comparison, observations were made using biohole which was only filled with water without microbes. Furthermore, these two conditions, namely biohole with microbes and biohole without microbes, were compared to changes in parameters: soil acidity, infirtration rate and electrolyte conductivity levels. So that it can be seen a real difference in the speed of improvement of the two soil conditions and the ability of the soil to provide nutrients during vegetative and generative growth. Soil carrying capacity research using microbial activity variables as a measurable control is called Biosoildam Technology. This research was conducted on agricultural land with commodities as above. The tools used are the Double Ring Infiltrometer to measure the infiltration rate at three radial distances from the center of the microbial hole (Biohole), the measurement of electrolyte salt content as an indication of soil fertility using Electrolyte Conductivity, and the use of a PH meter as a measure of soil acidity. Infiltration calculations were carried out every 5 minutes and observed every 15 days for 45 days. This research is expected to: reduce production costs, increase crop yields, make agriculture sustainable, produce mutiplayer economies of effect, strengthen crops to face global climate change. The result of research show that the highest of infiltration rate, infiltration capacity, fertility & acidity was happened on soil with involve Biofertilizer MA-11, ie 83-99 cm/hour, 325 – 970 uS/cm, PH = 6- 6,5. While the lowest of infiltration rate, infiltration capacity, fertility & acidity was happened on soil without involve Alfaafa Microba MA-11, ie 31- 52 cm/hour, 325 – 540 uS/cm, PH 5 – 6.

Analysis of The Relationship Between Microbial Activities In Humus Soil Towards Infiltration Rate for Fertility Improvement With Biosoildam Technology for Corn Plantation Widiasmadi, Nugroho
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on Humus soils, especially for Corn Plantation, aimed at restoring soil health and fertility due to the use of chemical fertilizers and pesticides. Through controlled microbial activity through bio whole. This study observes periodically changes in soil acidity, infiltration rate, and electrolyte conductivity levels around the center of the biohole as the center of the microbial distribution. As a comparison, observations were made using a biohole that was only filled with water without microbes. Furthermore, these two conditions, namely biohole with microbes and biohole without microbes, were compared to changes in parameters: soil acidity, infiltration rate, and electrolyte conductivity levels. So that it can be seen a real difference in the speed of improvement of the two soil conditions and the ability of the soil to provide nutrients during vegetative and generative growth. Soil carrying capacity research using microbial activity variables as a measurable control is called Biosoildam Technology. This research was conducted on agricultural land with commodities as above. The tools used are the Double Ring Infiltrometer to measure the infiltration rate at three radial distances from the center of the microbial hole (Biohole), the measurement of electrolyte salt content as an indication of soil fertility using Electrolyte Conductivity, and the use of a PH meter as a measure of soil acidity. Infiltration calculations were carried out every 5 minutes and observed every 15 days for 45 days. This research is expected to: reduce production costs, increase crop yields, make agriculture sustainable, produce multiplayer economies of effect, strengthen crops to face global climate change. The result of the research shows that the highest infiltration rate, infiltration capacity, fertility & acidity happened on soil involving Biofertilizer MA-11, ie 83-99 cm/hour, 325 – 970 uS/cm, PH = 6- 6,5. While the lowest infiltration rate, infiltration capacity, fertility & acidity was happened on soil without involving Alfaafa Microba MA-11, ie 31- 52 cm/hour, 325 – 540 uS/cm, PH 5 – 6

Analysis of The Relationship Between Microbial Activities in Humus Soil Towards Infiltration Rate for Fertility Improvement with Biosoildam Technology for Corn Plantation Widiasmadi, Nugroho
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on Humus soils, especially for Corn Plantation, aimed at restoring soil health and fertility due to the use of chemical fertilizers and pesticides. Through controlled microbial activity through biohole. This study observes periodically changes in soil acidity, infiltration rate and electrolyte conductivity levels around the center of the biohole as the center of microbial distribution. As a comparison, observations were made using biohole which was only filled with water without microbes. Furthermore, these two conditions, namely biohole with microbes and biohole without microbes, were compared to changes in parameters: soil acidity, infirtration rate and electrolyte conductivity levels. So that it can be seen a real difference in the speed of improvement of the two soil conditions and the ability of the soil to provide nutrients during vegetative and generative growth. Soil carrying capacity research using microbial activity variables as a measurable control is called Biosoildam Technology. This research was conducted on agricultural land with commodities as above. The tools used are the Double Ring Infiltrometer to measure the infiltration rate at three radial distances from the center of the microbial hole (Biohole), the measurement of electrolyte salt content as an indication of soil fertility using Electrolyte Conductivity, and the use of a PH meter as a measure of soil acidity. Infiltration calculations were carried out every 5 minutes and observed every 15 days for 45 days. This research is expected to: reduce production costs, increase crop yields, make agriculture sustainable, produce mutiplayer economies of effect, strengthen crops to face global climate change. The result of research show that the highest of infiltration rate, infiltration capacity, fertility & acidity was happened on soil with involve Biofertilizer MA-11, ie 83-99 cm/hour, 325 – 970 uS/cm, PH = 6- 6,5. While the lowest of infiltration rate, infiltration capacity, fertility & acidity was happened on soil without involve Alfaafa Microba MA-11, ie 31- 52 cm/hour, 325 – 540 uS/cm, PH 5 – 6.

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.

Biohole Effectiveness Analysis Through The Distribution Pattern Of Microbes At Each Depth By Iot On Margel Nugroho Widiasmadi
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on margel soil, especially for plantations, with the aim of not only restoring the health and fertility of the soil due to the use of chemical fertilizers and pesticides as well as seeing the pattern of EC distribution at each depth from the center of the biohole based on the time of observation. Through controlled microbial activity, its spread through two types of biohole, namely horizontal and vertical biohole. This research observes in real time through soil parameter sensors connected to the micro controller to changes in soil acidity, infiltration rate, conductivity electrolyte level and porosity level through soil infiltration rate. Through simulations with 2 types of biohole, it can be seen the increase in EC in each depth to the time of observation in real time. From the observations of graphs and EC standards, it can be seen that the ability of the soil to provide nutrients in the root growth zone to support the schedule and distribution patterns of planting both during vegetative growth and generative growth periods. So that we will know the proper biohole distance and spacing in order to be able to provide vegetative and generative mass nutrition based on nutrient values monitored through sensors that change the analog parameters in the micro posesor into digital information transmitted by wifi in real time. Sand coastal soil fertility simulation based on the number of microbial populations = 10 8 / cfu with Variable 1: Soil Fertility Value or Electrolyte Conductivity / EC at a depth of 24 cm from 487 uS / cm to 1123 uS / cm on day 33 and from 1164 uS / cm down to 786 uS / cm on day 40. Varibale 2 : Soil Fertility Value or Electrolyte Conductivity / EC at a depth of 27 cm from 457 uS / cm up to 857 uS / cm on day 33 & from 892 uS / cm down to 774 uS / cm on day 39.

Optimalisasi Lahan Pertanian Berwawaskan Konservasi Pada Tanah Pedsol Dengan Teknologi Iot Smart Biosoildam Nugroho Widiasmadi; Djoko Suwarno
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

Penurunan daya dukung lahan saat ini dikuatkan sebagai salah satu faktor utama akibat penurunan kesuburan tanah, kesehatan dan daya serap (laju infiltrasi), yang dipicu oleh penggunaan pupuk anorganik (kimia) dan pestisida yang berlebihan. Tujuan dari analisis peningkatan laju infiltrasi tanah pada lahan pertanian Pedsol dengan melibatkan pupuk hayati MA-11 pada Biosoildam. Sebagai kontrol adalah tanah asli tanpa dipicu aktivitas mikroba. Penelitian dilaksanakan pada bulan September sampai Desember 2021 di areal agroland bawang merah di Kabupaten Tanah Datar Sumatra Barat. Penelitian ini menggunakan double ring infiltrometer untuk mengukur infiltrasi tanah dengan tiga kali ulangan pada setiap jarak dari Biohole dan menggunakan electrolit conductor (EC) untuk mengukur kesuburan tanah dengan konsentrasi ion garam dan kemasaman tanah. Pengukuran dilakukan setiap lima menit dan periode pengamatan setiap lima belas hari selama empat puluh lima hari. Hasil penelitian menunjukkan bahwa laju infiltrasi, kapasitas infiltrasi, kesuburan & keasaman tertinggi terjadi pada tanah yang menggunakan pupuk hayati MA-11. Laju infiltrasi menunjukkan nilai konstan pada tingkat 75 sampai 105 cm/jam yang dicapai setelah hari ke-26. Sedangkan nilai EC dalam kondisi stabil dicapai pada hari ke-30 dengan nilai antara 1035 – 1285 uS/cm. Sehingga aktivitas agens hayati pada tanah Andosol dengan tingkat infiltrasi akan optimal pada hari ke-31.

Biohole Effectiveness Analysis Through The Distribution Pattern of Microbes at Each Depth In Real Time On Coastal Sand Nugroho Widiasmadi; Djoko Suwarno
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

This research was conducted on coastal sand, especially for plantations, with the aim of not only restoring the health and fertility of the soil due to the use of chemical fertilizers and pesticides as well as seeing the pattern of EC distribution at each depth from the center of the biohole based on the time of observation. Through controlled microbial activity, its spread through two types of biohole, namely horizontal and vertical biohole. This research observes in real time through soil parameter sensors connected to the micro controller to changes in soil acidity, infiltration rate, conductivity electrolyte level and porosity level through soil infiltration rate. Through simulations with 2 types of biohole, it can be seen the increase in EC in each depth to the time of observation in real time. From the observations of graphs and EC standards, it can be seen that the ability of the soil to provide nutrients in the root growth zone to support the schedule and distribution patterns of planting both during vegetative growth and generative growth periods. So that we will know the proper biohole distance and spacing in order to be able to provide vegetative and generative mass nutrition based on nutrient values monitored through sensors that change the analog parameters in the micro posesor into digital information transmitted by wifi in real time. Sand coastal soil fertility simulation based on the number of microbial populations = 10 8 / cfu with Variable 1: Soil Fertility Value or Electrolyte Conductivity / EC at a depth of 26 cm from 550 uS / cm to 1238 uS / cm on day 35 and from 1238 uS / cm down to 990 uS / cm on day 40. Varibale 2: Soil Fertility Value or Electrolyte Conductivity / EC at a depth of 24 cm from 550 uS / cm up to 968 uS / cm on day 35 & from 968 uS / cm down to 842 uS / cm on day 40.

Simulasi Populasi Mikroba Untuk Optimasi Konduktifitas Elektrolit Pada Tanah Latosol Menggunakan Teknologi Smart Biosoildam Nugroho Widiasmadi
Syntax Literate Jurnal Ilmiah Indonesia
Publisher : CV. Ridwan Publisher

Penelitian ini bertujuan untuk mengetahui kemampuan lapisan tanah dalam mendistribusikan unsur hara dan memulihkan kesehatan dan kesuburan tanah akibat penggunaan pupuk dan pestisida kimia. Melalui aktivitas mikroba yang dikendalikan dengan cara menyebar melalui biohole horizontal, melalui mikrokontroler penelitian ini mengamati dalam periode waktu terhadap perubahan : kemasaman tanah, laju infiltrasi, tingkat konduktivitas elektrolit dan tingkat porositas melalui ini dilakukan pada tanah latosol, khususnya untuk perkebunan sayuran, laju infiltrasi tanah. Menggunakan metode simulasi dengan variabel populasi mikroba dapat diketahui tingkat konduktifitas elektrolit (EC) dan parameter lainnya. Metode ini menggunakan teknologi Smart Biosoildam (Biodam) yang dapat di simulasikan menyamai dengan proses sebenarnya (real time). Dari pengamatan grafik dan standar EC dapat diketahui bahwa kemampuan tanah untuk menurunkan tingkat asam dan meningkatkan kesuburan. Janis tanah ini sampai hari ke 45 tingkat kesuburan tanah belum mencapai = 1415 uS/cm dengan populasi mikroba = 10 3 / cfu untuk mendukung masa pertumbuhan vegetatif maupun pada masa pertumbuhan generatif, sehingga kita akan mengetahui kapan waktu yang tepat untuk melakukan: pemulihan tanah melalui infiltrasi nutrisi , penanaman awal umbi/bunga/buah dapat mulai dikondisikan. hingga matang berdasarkan nilai gizi yang diamati melalui sensor yang mengubah parameter analog oleh mikrokontroler menjadi informasi digital yang dikirimkan melalui wifi secara real time. Kondisi awal sebelum simulasi nilai kesuburan tanah dengan parameter EC adalah 634 uS/cm, hasil simulasi adalah: Simulasi 1 : Kandungan hara untuk pertumbuhan generatif dicapai pada hari ke 27 dengan tingkat kesuburan = 1435 uS/cm dengan Populasi Mikroba 10 8 / cfu. Simulasi 2: Kandungan nutrisi untuk pertumbuhan generatif dicapai pada hari ke 42 pada tingkat kesuburan = 1410 uS / cm dengan populasi mikroba = 105 / cfu. Simulasi 3: kandungan nutrisi untuk pertumbuhan generatif tidak dapat diamati

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