Imbalanced Soil Chemical Properties and Mineral Nutrition in Relation to Growth and Yield Decline of Sesame on Different Continuously Cropped Upland Fields Converted Paddy

Wacal, Cosmas; Ogata, Naoki; Basalirwa, Daniel; Sasagawa, Daisuke; Ishigaki, Tadashi; Handa, Takuo; Kato, Masako; Tenywa, Moses; Masunaga, Tsugiyuki; Yamamoto, Seiji; Nishihara, Eiji

doi:10.3390/agronomy9040184

Cited by 16 publications

(14 citation statements)

References 49 publications

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“…The decrease in 1000-seed weight signifies that yield decline is consistent with Kelly et al [21], who found that yield decline of soybean under continuous monocropping is attributed to low seed weight. The decrease in 1000-seed weight and, consequently, yield of sesame has previously been attributed to decrease in N availability and to decrease in the uptake of K [7]. Our study showed markedly lower TN and exchangeable K in all continuously monocropped fields in 2016 when compared with those in 2015.…”

Section: Discussionsupporting

confidence: 56%

“…Despite the importance of sesame seeds, the production of sesame in Japan had been on a negligible scale although it is gradually increasing, especially on abandoned paddy fields [5,6]. However, we previously reported yield decline of sesame on upland fields converted from paddy fields under intensive continuous monocropping as a result of changes in soil nutrient availability [7]. We reported decrease in available N and unbalanced exchangeable cations in which high quantities of Ca and Mg affected uptake of K. These changes or imbalances in soil nutrient status under continuous monocropping of sesame could affect sesame seed composition.…”

Section: Introductionmentioning

confidence: 92%

“…Although sesame yield decline under continuous monocropping on upland fields converted from paddy fields has been reported [7], there is a lack of information on the fatty acid compositions of sesame seeds produced under such conditions. Moreover, one of the key factors that determine the quality of sesame seed is the fatty acid composition.…”

Section: Introductionmentioning

confidence: 99%

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Fatty Acid Composition of Sesame (Sesamum indicum L.) Seeds in Relation to Yield and Soil Chemical Properties on Continuously Monocropped Upland Fields Converted from Paddy Fields

et al. 2019

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We evaluated the fatty acid compositions in relation to yield and soil nutrients from four fields A, B, C, and D with continuous monocropping histories of 0–3 years, respectively, in Japan from 2015 to 2016. Results showed that, in both evaluation years, seed yield did not significantly differ among the fields although field A produced the highest mean seed yield and 1000-seed weight. Between fields A and C, 1000-seed weight showed significant differences. The contents of seed-saturated fatty acids lauric and myristic decreased in only fields C and D whereas oleic, linoleic, and linolenic acids increased in field D. Only field A produced the highest contents of lauric and myristic acids whereas field D produced the highest contents of linoleic and linolenic acids. The soil total N and exchangeable K contents tended to decrease as exchangeable Mg content significantly increased on the fields with long duration of cropping, fields C and D. Principal component analysis revealed significant positive correlations between soil exchangeable K, and total N contents with 1000-seed weight and lauric acid, as exchangeable Mg content was related with oleic, linoleic, and linolenic acids. Therefore, the high oleic, linoleic, and linolenic acids from field D were mainly attributed to high soil exchangeable Mg content, whereas the high 1000-seed weight, lauric acid and myristic acid were due to the high soil exchangeable K content in field A. Overall, the fatty acid composition quality on the long-duration continuously monocropped fields could show high economic value at the expense of yield under this management practice in continuous monocropping.

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Section: Discussionsupporting

confidence: 56%

Section: Introductionmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

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Fatty Acid Composition of Sesame (Sesamum indicum L.) Seeds in Relation to Yield and Soil Chemical Properties on Continuously Monocropped Upland Fields Converted from Paddy Fields

et al. 2019

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“…It is reported that the growth and yield of crops decreased in long-term continuous monocropping due to several factors such as diseases, pests, depletion in soil nutrients, and nutrient imbalances [18]. Our previous study indicated that imbalances in soil exchangeable cations Ca, Mg, and K led to poor K nutrition as a result of high Ca and Mg inhibiting the uptake of K by sesame plants which partly limited sesame growth and yield under continuous monocropping on the upland field converted paddy [9]. Therefore, the poor growth of sesame in the un-balanced soil (control) confirmed the occurrence of continuous monocropping obstacle due to a low uptake of K. Apart from imbalances in cations Ca, Mg, and K, the decrease in K availability from continuous monocropping fields could be attributed to the annual removal of crop because sesame requires a high amount of potassium for growth and the seed usually accumulates a high amount of K as part of the mineral nutrient [8].…”

Section: Discussionmentioning

confidence: 99%

“…Sesame requires high concentration of K in the tissue, between 1.5% to 2.4%, and low K in the soil can cause poor growth [8]. However, our previous study reported that sesame growth is limited by poor K nutrition as a result of an imbalance in soil exchangeable cations that cause a competitive ion effect on continuous monocropping from upland fields converted paddy in Japan [9]. The decrease in the leaf tissue K content, and consequently its uptake, was attributed to an increase in soil exchangeable Ca and Mg in the long duration of continuous monocropping for four to six years, which caused a competitive ionic effect in the soil, thus negatively influencing the growth and yield.…”

Section: Introductionmentioning

confidence: 98%

Growth and K Nutrition of Sesame (Sesamum indicum L.) Seedlings as Affected by Balancing Soil Exchangeable Cations Ca, Mg, and K of Continuously Monocropped Soil from Upland Fields Converted Paddy

et al. 2019

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Growth of sesame is known to be limited by poor K nutrition as a result of imbalance in soil exchangeable cations that cause a competitive ion effect in continuous monocropping from upland fields converted paddy. We hypothesized that balancing soil exchangeable cations will improve the K nutrition and growth of sesame plants. Therefore, the specific objectives of this study were to determine the effect of balancing soil exchangeable cations Ca, Mg, and K of continuously monocropped soils on the growth and cation uptake of sesame seedlings and also identify a suitable source of nutrients for improving K nutrition. A pot experiment was conducted under greenhouse condition in a 3 × 3 factorial design consisting of three levels of balancing treatments i.e. inorganic fertilizer for Ca, Mg, and K, rice husk biochar to increase K content, and the three durations of continuous monocropping soils of one year, two years, and four years from upland fields converted paddy. Balancing soil exchangeable cations was aimed at achieving optimal base saturations (CaO, 75%; MgO, 25%; and K2O, 10%). Results showed that balancing exchangeable cations did not significantly affect growth and cation uptake in the one and two-year soils but significant effect was observed in the four-year soil. Overall, plant height and dry weight increased for the balancing treatments of inorganic fertilizer K and rice husk biochar. Balancing exchangeable cations with biochar was more beneficial than with inorganic fertilizers. The four-year soil’s growth increase was attributed to an increase in K concentration and uptake due to the decrease in the soil Ca/K and Mg/K ratios to that of acceptable levels, which eliminated competitive ion effect as the soil K saturation increased above 5.0%, enhancing sesame growth. Therefore, a balanced soil exchangeable Ca, Mg, and K that eliminates a competitive ion effect will improve sesame growth and K nutrition although future research should focus on ensuring balanced cation rations under field conditions in continuous monocropping.

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Soil potentials to resist continuous cropping obstacle: Three field cases

Tan

Liu

Peng

et al. 2021

Environmental Research

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Imbalanced Soil Chemical Properties and Mineral Nutrition in Relation to Growth and Yield Decline of Sesame on Different Continuously Cropped Upland Fields Converted Paddy

Cited by 16 publications

References 49 publications

Fatty Acid Composition of Sesame (Sesamum indicum L.) Seeds in Relation to Yield and Soil Chemical Properties on Continuously Monocropped Upland Fields Converted from Paddy Fields

Fatty Acid Composition of Sesame (Sesamum indicum L.) Seeds in Relation to Yield and Soil Chemical Properties on Continuously Monocropped Upland Fields Converted from Paddy Fields

Growth and K Nutrition of Sesame (Sesamum indicum L.) Seedlings as Affected by Balancing Soil Exchangeable Cations Ca, Mg, and K of Continuously Monocropped Soil from Upland Fields Converted Paddy

Soil potentials to resist continuous cropping obstacle: Three field cases

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