The Influence of Soil Moisture on the Water Balance of Tobacco Plant. (I) The Influence of Soil Moisture Level on the Senescence of Tobacco Leaves
Two tabacco varieties, H-2 and MC, were grown in lysimeters (2m×2m×1.2 m), with different soil moisture levels. The former variety is resistant to high soil moisture level, the latter one is a new variety subject to defoliation of order leaves by high soil moisture level. Soil moisture levels were c...
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| Published in | Environment Control in Biology Vol. 11; no. 1; pp. 7 - 11 |
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| Main Author | |
| Format | Journal Article |
| Language | English Japanese |
| Published |
Japanese Society of Agricultural, Biological and Environmental Engineers and Scientists
31.03.1973
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| Online Access | Get full text |
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| Abstract | Two tabacco varieties, H-2 and MC, were grown in lysimeters (2m×2m×1.2 m), with different soil moisture levels. The former variety is resistant to high soil moisture level, the latter one is a new variety subject to defoliation of order leaves by high soil moisture level. Soil moisture levels were changed at three growing stages, i.e. early, middle and late stage. Thus HLL plot, for example, means the plot where the soil moisture level was high at early stage, low at middle and at late stage. Similar abbreviation is used in Table 1 and elsewhere. Soil moisture stress in terms ofpF, osmotic potential (formerly osmotic pressure) of leaf sap, and water potential (formerly suction force or DPD) of leaf discs were determined. Growth of tabacco plants, nitrogen and nicotine content of leaves were also investigated. The results obtained were summarized as follows: 1) After the rainfall more than 30 mm/day, soil moisture remarkably increased (Fig. 1) . But such cases occurred only thrice or four times throughout the growing stages, so the moisture stress was maintained for the most part at the level expected (high moisture, pF=1.7; middle moisture, pF=2.0; low moisture, pF=2.5) . 2) In HLL plot, where rain water was intercepted by rainshelter, the least defoliation ratio was observed even in MC (Table 4) . 3) Smaller pressure potential or turgor pressure was found in the lower leaves of MC than that of H-2 (Fig. 3) . The decrease of pressure potential was closely related to senescence of leaves. 4) In MC, the chlorophyll content of the lower leaves was higher in HLL plot than in other plots This fact coincided well with the slow rate of senescence of leaves in HLL plot (Fig. 6) . 5) Total nitrogen and nicotine content increased in both MC and H-2 by decreasing soil moisture after topping. The increase of nitrogen and nicotine content in MC was smaller than that of H-2 (Table 5) . |
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| AbstractList | Two tabacco varieties, H-2 and MC, were grown in lysimeters (2m×2m×1.2 m), with different soil moisture levels. The former variety is resistant to high soil moisture level, the latter one is a new variety subject to defoliation of order leaves by high soil moisture level. Soil moisture levels were changed at three growing stages, i.e. early, middle and late stage. Thus HLL plot, for example, means the plot where the soil moisture level was high at early stage, low at middle and at late stage. Similar abbreviation is used in Table 1 and elsewhere. Soil moisture stress in terms ofpF, osmotic potential (formerly osmotic pressure) of leaf sap, and water potential (formerly suction force or DPD) of leaf discs were determined. Growth of tabacco plants, nitrogen and nicotine content of leaves were also investigated. The results obtained were summarized as follows: 1) After the rainfall more than 30 mm/day, soil moisture remarkably increased (Fig. 1) . But such cases occurred only thrice or four times throughout the growing stages, so the moisture stress was maintained for the most part at the level expected (high moisture, pF=1.7; middle moisture, pF=2.0; low moisture, pF=2.5) . 2) In HLL plot, where rain water was intercepted by rainshelter, the least defoliation ratio was observed even in MC (Table 4) . 3) Smaller pressure potential or turgor pressure was found in the lower leaves of MC than that of H-2 (Fig. 3) . The decrease of pressure potential was closely related to senescence of leaves. 4) In MC, the chlorophyll content of the lower leaves was higher in HLL plot than in other plots This fact coincided well with the slow rate of senescence of leaves in HLL plot (Fig. 6) . 5) Total nitrogen and nicotine content increased in both MC and H-2 by decreasing soil moisture after topping. The increase of nitrogen and nicotine content in MC was smaller than that of H-2 (Table 5) . |
| Author | KUME, Hideo |
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| DOI | 10.2525/ecb1963.11.7 |
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| References | 6) WILLIAMSON, R.E. 1970. Effect of gas composition and flooding on growth of Nicotiana tabacum L. Agro. Journal 62: 80-83. 3) KRAMER, P. J. 1955. Water relations of plant cells and tissues. Ann. Rev. Plant Physiol. 6: 253-272. 4) 佐伯敏郎. 1972. 水の吸収, 移動, 排出. 「植物生理学講座5」112-140, 朝倉書店, 東京. 8) 山下貴・松沼富三. 1966. 摘心前および摘心後における土壌水分の相異がタバコの生育, 内容成分におよぼす影響. 宇都宮たばこ試報告 3: 80-89. 2) 平田克彦・佐々木幹夫. 1971. 生育時期別の土壌水分変化とタバコ体内水分の状態. 宇都宮たばこ試報告 10: 27-41. 7) 山下貴・松沼富三. 1966. 地下水位がタバコの生育, 養分吸収におよぼす影響. 宇都宮たばこ試報告 3: 61-79. 1) GOODE, J. E., and HEGARTY, T. W. 1965. Measurement of water potential of leaves by methods involving immersion in sucrose solutions. Nature 206: 109-110. 5) 佐々木幹夫・平田克彦. 1971. 自然状態下におけるタバコ根の分布と吸水. 宇都宮たばこ試報告 10: 3-13. |
| References_xml | – reference: 2) 平田克彦・佐々木幹夫. 1971. 生育時期別の土壌水分変化とタバコ体内水分の状態. 宇都宮たばこ試報告 10: 27-41. – reference: 1) GOODE, J. E., and HEGARTY, T. W. 1965. Measurement of water potential of leaves by methods involving immersion in sucrose solutions. Nature 206: 109-110. – reference: 4) 佐伯敏郎. 1972. 水の吸収, 移動, 排出. 「植物生理学講座5」112-140, 朝倉書店, 東京. – reference: 5) 佐々木幹夫・平田克彦. 1971. 自然状態下におけるタバコ根の分布と吸水. 宇都宮たばこ試報告 10: 3-13. – reference: 7) 山下貴・松沼富三. 1966. 地下水位がタバコの生育, 養分吸収におよぼす影響. 宇都宮たばこ試報告 3: 61-79. – reference: 3) KRAMER, P. J. 1955. Water relations of plant cells and tissues. Ann. Rev. Plant Physiol. 6: 253-272. – reference: 6) WILLIAMSON, R.E. 1970. Effect of gas composition and flooding on growth of Nicotiana tabacum L. Agro. Journal 62: 80-83. – reference: 8) 山下貴・松沼富三. 1966. 摘心前および摘心後における土壌水分の相異がタバコの生育, 内容成分におよぼす影響. 宇都宮たばこ試報告 3: 80-89. |
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| Snippet | Two tabacco varieties, H-2 and MC, were grown in lysimeters (2m×2m×1.2 m), with different soil moisture levels. The former variety is resistant to high soil... |
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| Subtitle | The Influence of Soil Moisture Level on the Senescence of Tobacco Leaves |
| Title | The Influence of Soil Moisture on the Water Balance of Tobacco Plant. (I) |
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