한국초지조사료학회지 (Journal of The Korean Society of Grassland and Forage Science)

  • 제23권2호
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  • Pages.81-90
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  • 2003
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  • 2287-5824(pISSN)
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  • 2287-5832(eISSN)
한국초지조사료학회 (The Korean Society of Grassland and Forage Science)
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Orchardgras 및 White clover의 단파 및 혼파 재배에서 붕소의 시용이 목초의 여러 특성에 미치는 효과 1. 목초의 생육, 개화, 뿌리 및 근류 등의 특성 변화

Effects of Boron Application on the Forage Traits in the Pure and Mixed Swards of Orchardgrass and White Clover I. Changes in the growth, flowers, roots, and nodules of forages

  • 정연규 (순천대학교 농업생명과학대학)
  • 발행 : 2003.06.01
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초록

Orchardgrass 및 white clover의 단파 및 혼파 재배조건에서 미량요소 붕소의 시비수준별 목초의 생육, 개화, 뿌리/근류 형성, 수량, 양양성분/무기양분 및 초종간 경합지수에 미치는 영향 등을 구명하였다. 다량요소 및 다른 미량요소 양분을 동일량 시비한 조건에서 5 수준의 붕소 시비량을 달리한 시비처리를 하였다. 붕소 처리수준은 1) $B_{0}$; 0.0, 2) $B_1$; 0.2, 3) $B_2$;2.0, 4) $B_3$;6.0, 5) $B_3$;6.0, 5)$ B_4$;15.0me B/pot로 하였으며, 본 I보에서는 붕소 처리별 목초의 생육, 개화, 뿌리 및 근류의 형성, 수분관리 특성 등에 미치는 영향을 검토하였다. 1. White clover에서 붕소의 과다증상($B_3$$B_4$ 처리구)은 예취 차수가 진행되어 감에 따라서 경감되었고, 전반기 예취기에는 orchardgrass보다 더 심한 과다증상을 보였다. 그리고 단파보다도 혼파재부에서 과다증상이 더 심했다. 각 초종별 생육이 왕성한 시기에는 공히 붕소의 과다증상이 경감되었다. 2. Orchardgrass에서 붕소의 과다증상은 잎의 선단 부위에 황화현상, 좁은 엽폭, 적은 분얼 및 약한 줄기를 보였으며, white clover는 고엽부터 엽변의 황화현상과 백화현상, 적은 분얼수 및 포복경을 생성하는 얼자의 미 형성이 관측되었다. 3. 적합한 붕소시비($B_2$)는 white clover의 뿌리생육, 근류 형성, 개화 및 화아가 양호하였고, 꽃의 생성기간이 길었으며 만개시기가 빨랐다. 그러나 혼파재배에서는 orchardgrass에 의한 억압된 생육 때문에 이 효과가 경감되었다. 4. 붕소의 시비효과는 orchardgrass보다 white clover에서 더 크게 나타났다. 혼파재배에서 white clover는 추비가 시비되지 않은 5차 예취시에는 처리구가 다른 처리구에 비해서 생육이 양호하였는데 이는 뿌리 및 근류의 형성이 더 양호한 특성에 기인된 것으로 생각되었다. 적합한 추비(특히 질소) 및 붕소의 시비는 양호한 식생을 갖는 grass-clover 혼파초지 조성에 크게 기여할 수 있는 것으로 보였다.

This pot experiment was conducted to find out the effects of boron application(B$_{0}$; 0.0, B$_1$; 0.2, $B_2$;2.0, $B_3$;6.0, $B_3$;6.0, $B_4$;15.0me B/pot) on the forage performance in the pure and mixed swards of orchardgrass and white clover. This 1st part was concerned with the changes in the growth, flowers and flower buds, and roots/nodules of forages. The results obtained are summarized as follows: 1. At the $B_3$ and $B_4$ treatments, the B toxicity was more seriously in white clover than in orchardgrass in the first half of cutting orders, and reduced in the latter half. In white clover, it was more worsened in a mixture than in a pure culture. It was somewhat reduced at the best growth stage of each forage. 2. In orchardgrass, the B toxicity($B_3$,$ B_4$) showed the chlorosis on leaf tips, shallow leaf, little tillers, and weak stems. Whereas it showed the chlorosis/necrosis on old leaf edge, little and weak stolons in white clover. 3. Comparing with the B deficiency($B_{0}$ , $B_1$) and toxicity($B_3$, $B_4$), the optimum B application($B_2$) influenced markedly good growth of shoot, root, nodule, and flower (flower number, blooming period, early full flower) in white clover. 4. Comparing with orchardgrass, white clover was greatly influenced by the boron application. However, this responses of white clover to boron were reduced in a grass-clover mixture with additional fertilization. It was recognized that the good forage performance in a grass-clover mixture could be regulated by the adequate applications of boron and additional fertilizers.s.

키워드

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