본 실험은 무배수구 용기 재배 시 숯, 게르마늄석, 맥반석 및 하이드로볼을 재료로 1㎝와 3㎝ 깊이의 배수층에 따른 싱고니움의 생장 반응을 알아보았다. 게르마늄석은 초장, 엽수, 지상부 생채중 등 생육이 가장 좋았으며, 배수층 깊이에 따른 결과는 3㎝로 배수층을 조성한 경우, 초장과 엽수의 생육이 가장 좋았고, 1㎝에서는 유의적 차이가 없었으나, 뿌리의 생육에서는 배수구가 있는 용기 재배에서 생육이 가장 좋았으며 무배수구 용기 재배와 유의적 차이를 보였다. 엽록소 함량에서 처리 간 차이가 없었으나 뿌리의 활력은 배수구가 있는 용기 재배에서 2.9㎎・g-1・h-1로 가장 낮은 숯 처리구에 비해 70%정도 높았다. 싱고니움의 무기성분 T-N, P 및 K는 배수층 재료에 따라 함량변화가 있었고, T-N, K와 Ca는 배수층 깊이에 따라 함량변화가 있었다.
본 실험은 무배수구 용기 재배 시 숯, 게르마늄석, 맥반석 및 하이드로볼을 재료로 1㎝와 3㎝ 깊이의 배수층에 따른 싱고니움의 생장 반응을 알아보았다. 게르마늄석은 초장, 엽수, 지상부 생채중 등 생육이 가장 좋았으며, 배수층 깊이에 따른 결과는 3㎝로 배수층을 조성한 경우, 초장과 엽수의 생육이 가장 좋았고, 1㎝에서는 유의적 차이가 없었으나, 뿌리의 생육에서는 배수구가 있는 용기 재배에서 생육이 가장 좋았으며 무배수구 용기 재배와 유의적 차이를 보였다. 엽록소 함량에서 처리 간 차이가 없었으나 뿌리의 활력은 배수구가 있는 용기 재배에서 2.9㎎・g-1・h-1로 가장 낮은 숯 처리구에 비해 70%정도 높았다. 싱고니움의 무기성분 T-N, P 및 K는 배수층 재료에 따라 함량변화가 있었고, T-N, K와 Ca는 배수층 깊이에 따라 함량변화가 있었다.
This experiment reviewed the growth reaction of Syngonium podophyllum when grown in a drainless container that is fitted with a drainage layer, 1 cm to 3 ㎝ in depth, using charcoal, germanium stone and hydro ball as substrate additions. According to the results, the use of geranium-gravel is most ef...
This experiment reviewed the growth reaction of Syngonium podophyllum when grown in a drainless container that is fitted with a drainage layer, 1 cm to 3 ㎝ in depth, using charcoal, germanium stone and hydro ball as substrate additions. According to the results, the use of geranium-gravel is most effective in fostering growth related to the plant height, number of leaves and fresh weight shoot. The corresponding results according to the depth of the drainage layer indicate that a drainage layer of 3 ㎝ in depth is most effective for the growth of plant height and the number of leaves. There was no significant difference when the drainage layer was 1 cm deep, save in the case of root growth, wherein it displayed the most comparative growth among the control group, indicating a significant difference to when only drainless containers were used. There was no difference in the amount of chlorophyll. The root activity factor, however, was 2.9 ㎎・g-1・h-1 which was 70% higher than under the charcoal treatment, which displayed the lowest result among the study group. The quantity of inorganic components, T-N and K, of the Syngonium podophyllum varied according the material of the drainage layer while the quantity of T-N, K and Ca varied according the depth of drainage-layer.
This experiment reviewed the growth reaction of Syngonium podophyllum when grown in a drainless container that is fitted with a drainage layer, 1 cm to 3 ㎝ in depth, using charcoal, germanium stone and hydro ball as substrate additions. According to the results, the use of geranium-gravel is most effective in fostering growth related to the plant height, number of leaves and fresh weight shoot. The corresponding results according to the depth of the drainage layer indicate that a drainage layer of 3 ㎝ in depth is most effective for the growth of plant height and the number of leaves. There was no significant difference when the drainage layer was 1 cm deep, save in the case of root growth, wherein it displayed the most comparative growth among the control group, indicating a significant difference to when only drainless containers were used. There was no difference in the amount of chlorophyll. The root activity factor, however, was 2.9 ㎎・g-1・h-1 which was 70% higher than under the charcoal treatment, which displayed the lowest result among the study group. The quantity of inorganic components, T-N and K, of the Syngonium podophyllum varied according the material of the drainage layer while the quantity of T-N, K and Ca varied according the depth of drainage-layer.
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