生物和n的总浓度对水培作物的生长和硝酸盐浓度的影响

Jurnal Agro Industri Perkebunan Pub Date : 2021-07-30 DOI:10.15575/11959

Salamet Ginandjar, Budy Frasetya Taufik Qurrohman, Panji Rahmatullah

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引用次数: 0

摘要

生菜是一种以新鲜形式食用的蔬菜。硝酸盐蓄电池的特性需要根据植物的需要来调节施肥和硅胶的应用。本研究旨在研究稻壳(ESSP)和n的总二氧化硅萃取物的相互作用，并获得ESSP和n的适当浓度，以产生高生菜作物，但对健康是安全的。所使用的研究设计是一个随机的结果，一个因素是ESSP浓度(0 ppm, 30 ppm, 60 ppm, 90 ppm)，第二个因素是n总浓度(100 ppm, 200 ppm, 300 ppm)，每个治疗组合重复3次。观察到的参数是植物生长后35天的高度，树叶的面积，植物的干燥重量，植物的新鲜重量，生菜叶子中的硝酸盐含量。数据以5%的方差进行分析，然后以5%的速度对邓肯进行多重测度测试，而硝酸盐含量参数进行了描述性分析。基于对植物高度的刺化浓度和n的总浓度的分析结果，以及对植物干燥重量和新鲜体重的独立影响。30种ppm米糠中二氧化硅提香的应用增加了28%的产量，生菜作物总共减少了12%的硝酸盐含量。腐烂是一种令人不安的蔬菜。它的特点是一种需要将硝酸加速度的植物与硅胶结合起来。这一研究涉及研究大米与硅extract (ESSP)之间的互动，总N确定正确的ESSP和总N集中生产高产量的lettuce和safely consusumed。这个研究用的是一个完全随机的设计。第一个因素是不断的集中(0 ppm, 30 ppm, 60 ppm, 90 ppm)，第二因素是总N集中(100 ppm, 200 ppm, 300 ppm)。每一种化合物都重复了三次。观察人员观察到，经过35天的plant、leaf、plant dry weight、fresh plant weight和硝酸盐在lettuce叶内对内。数据是由5%的方差分析分析的，而DMRT在5%的平均水平上对数据进行了分析，基于对变量的分析，对植物高度的集中注意力和总集中注意力。ESSP的专注和总中心的独立工作影响了plant dry weight和fresh plant weight。应用30种ppm稻壳硅藻释放率增加28% higher在n -300 ppm中释放12%硝酸可耕地。

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Pengaruh konsentrasi Si biogenic dan N-total terhadap pertumbuhan dan konsentrasi nitrat tanaman selada hidroponik

Tanaman selada merupakan sayuran yang dikonsumsi dalam bentuk segar. Karakteristiknya sebagai tanaman akumulator nitrat perlu diimbangi pemupukan N dan aplikasi Silika (Si) sesuai kebutuhan tanaman. Penelitian ini bertujuan untuk mempelajari interaksi ekstrak silika sekam padi (ESSP) dan N-total, serta memperoleh konsentrasi ESSP dan N-total yang tepat untuk menghasilkan panen selada yang tinggi tetapi aman bagi kesehatan. Rancangan penelitian yang digunakan adalah Rancangan Acak Lengkap Faktorial, faktor pertama adalah konsentrasi ESSP (0 ppm, 30 ppm, 60 ppm, 90 ppm) dan faktor kedua adalah konsentrasi N-total (100 ppm, 200 ppm, 300 ppm), setiap kombinasi perlakuan diulang 3 kali. Parameter yang diamati yaitu tinggi tanaman 35 hari setelah tanam (HST), luas daun, berat kering tanaman, berat segar tanaman, kandungan nitrat pada daun selada. Data dianalisis dengan analisis varians taraf 5% dilanjutkan dengan Uji Jarak Berganda Duncan pada taraf nyata 5%, sedangkan parameter kandungan nitrat dianalisis secara deskriptif. Berdasarkan hasil analisis varians konsentrasi ESSP dan konsentrasi N-total berinteraksi pada tinggi tanaman dan berpengaruh mandiri terhadap berat kering tanaman dan berat segar tanaman. Aplikasi ekstrak silika sekam padi 30 ppm meningkatkan hasil panen 28% lebih tinggi dan menurunkan 12% kandungan nitrat tanaman selada pada N total 100-300 ppm.AbstractLettuce is a freshly consumed vegetable. Its characteristics as a nitrate accumulator plant need to be balanced with N fertilization and Silica (Si) applications according to the plant required. This research aimed to study the interaction between rice husk silica extract (ESSP) and total N to obtain the right ESSP and total N concentrations to produce high yield lettuce and safely consumed it. This study used a factorial completely randomized design. The first factor was ESSP concentrations (0 ppm, 30 ppm, 60 ppm, 90 ppm) and the second factor was total N concentrations (100 ppm, 200 ppm, 300 ppm). Each treatment combination was repeated 3 times. The parameters observed were plant height in 35 days after planting, leaf area, plant dry weight, fresh plant weight, and nitrat e content in lettuce leaves. The data were analyzed by analysis of variance at the 5%, and post-test by DMRT at the 5% significant level, the nitrate content used descriptive analysis. Based on the analysis of variance, ESSP concentration and total N concentration interacted on plant height. The ESSP concentration and total N concentration independently affected plant dry weight and fresh plant weight. Application of 30 ppm rice husk silica extract increased 28% higher yield and decreased 12% nitrate content of lettuce plants at N-total of 100-300 ppm.

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Jurnal Agro Industri Perkebunan

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24 weeks