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W2898453803 abstract "Crossing annual cereals, legumes, and oilseeds with wild rhizomatous relatives is used to create perennial lines that fruit over 2–3 seasons. Contrary to annual crops, the year-round vegetation cover should contribute to carbon sequestration, soil formation, and root mineral preservation. Soil erosion, nutrient leaching, and labor expenses may be reduced. While deep-rooted grasses actually inhibit nitrate leaching, advantages in nutrient storage and soil formation are not yet shown. Therefore, the turnover of organics and minerals in the perennial goldenrod was compared with that of winter wheat between blooming and resprouting (28 February) by gravimetry and ICP-MS. From blooming (23 August) to harvest (13 November), goldenrod stalks of 10,070 (given in kg ha−1) lost 23% by dry weight (DW) and released 14.9/9.6/65.7 in NPK and 2193 in water-soluble organics via leaching and root exudation. Apart from a transient rise of 28.8 in N around 13 November, the stubble/rhizome system held CaKMg(N)P stable at a level avoiding metal stress from 23 August to 28 February. Filling seeds in wheat excluded net losses of minerals and organics from anthesis to harvest (23 July). Stubbles (16 cm) and spilt grains of 2890 represented 41.8/2.91/62.5 in NPK and lost 905 in biomass with 25.4/1.8/59.8 in NPK to the soil by 28 February. In wheat-maize rotations, ploughing was avoided until early March. Weeds and seedlings emerged from spilt grains replaced losses in stubble biomass, N, and P but left 40.5 in K unused to the soil. In wheat-wheat rotations, organics and minerals lost by the down-ploughed biomass were replenished by the next-rotation seedlings that left only 18.3 in K to the soil. In summary, off-season goldenrod rhizomes did not store excess minerals. The rate of mineral preservation corresponded with the quantity of the biomass irrespective of its perennial habit. Released water-soluble organics should foster microbial carbon formation and CO2 efflux while soil improving gains in humate C should depend on the lignin content of the decaying annual or perennial biomass. Clues for NPK savings by perennials were not found." @default.
W2898453803 created "2018-11-02" @default.
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W2898453803 date "2018-10-25" @default.
W2898453803 modified "2023-10-14" @default.
W2898453803 title "Turnover of Minerals and Organics in the Postharvest Herbage of Annuals and Perennials: Winter Wheat and Goldenrod" @default.
W2898453803 cites W1488794426 @default.
W2898453803 cites W1490680892 @default.
W2898453803 cites W1563856969 @default.
W2898453803 cites W1578363155 @default.
W2898453803 cites W1690597683 @default.
W2898453803 cites W195142880 @default.
W2898453803 cites W1980530300 @default.
W2898453803 cites W1984876626 @default.
W2898453803 cites W1992609538 @default.
W2898453803 cites W1994169159 @default.
W2898453803 cites W2002686280 @default.
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W2898453803 cites W2021915860 @default.
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W2898453803 cites W2024399349 @default.
W2898453803 cites W2024714707 @default.
W2898453803 cites W2025879764 @default.
W2898453803 cites W2026674142 @default.
W2898453803 cites W2039417525 @default.
W2898453803 cites W2051287935 @default.
W2898453803 cites W2059748192 @default.
W2898453803 cites W2061639555 @default.
W2898453803 cites W2073067063 @default.
W2898453803 cites W2091740819 @default.
W2898453803 cites W2093393541 @default.
W2898453803 cites W2095004316 @default.
W2898453803 cites W2095698554 @default.
W2898453803 cites W2098497323 @default.
W2898453803 cites W2099383389 @default.
W2898453803 cites W2114773779 @default.
W2898453803 cites W2119744580 @default.
W2898453803 cites W2126164548 @default.
W2898453803 cites W2126997558 @default.
W2898453803 cites W2131491732 @default.
W2898453803 cites W2134602538 @default.
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W2898453803 cites W2145937497 @default.
W2898453803 cites W2155165230 @default.
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W2898453803 cites W2290271874 @default.
W2898453803 cites W2290368858 @default.
W2898453803 cites W2327157349 @default.
W2898453803 cites W2327920143 @default.
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W2898453803 cites W2413320502 @default.
W2898453803 cites W2463530771 @default.
W2898453803 cites W2498457897 @default.
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W2898453803 cites W2523464801 @default.
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W2898453803 cites W2611256874 @default.
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W2898453803 cites W2763740128 @default.
W2898453803 cites W2792010468 @default.
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W2898453803 doi "https://doi.org/10.3390/agriculture8110170" @default.
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