Seasonal dynamics of above- and below-ground biomass and nitrogen partitioning in EMMiscanthus/EM?×?EMgiganteus/EM and EMPanicum virgatum/EM across three growing seasons

Frank G. Dohleman; Emily A. Heaton; Rebecca A. Arundale; Stephen P. Long

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Seasonal dynamics of above- and below-ground biomass and nitrogen partitioning in EMMiscanthus/EM?×?EMgiganteus/EM and EMPanicum virgatum/EM across three growing seasons

机译：在 miscanthus β××××××××××β-〜em>和 panicum virgatum 的季节性动力学

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The first replicated productivity trials of the C4 perennial grass Miscanthus × giganteus in the United States showed this emerging ligno-cellulosic bioenergy feedstock to provide remarkably high annual yields. This covered the 5 years after planting, leaving it uncertain if this high productivity could be maintained in the absence of N fertilization. An expected, but until now unsubstantiated, benefit of both species was investment in roots and perennating rhizomes. This study examines for years 5–7 yields, biomass, C and N in shoots, roots, and rhizomes. The mean peak shoot biomass for M. × giganteus in years 5–7 was 46.5 t haSUP?1/SUP in October, declining to 38.1 t haSUP?1/SUP on completion of senescence and at harvest in December, and 20.7 t haSUP?1/SUP declining to 11.3 t haSUP?1/SUP for Panicum virgatum. There was no evidence of decline in annual yield with age. Mean rhizome biomass was significantly higher in M. × giganteus at 21.5 t haSUP?1/SUP compared to 7.2 t haSUP?1/SUP for P. virgatum, whereas root biomass was similar at 5.6–5.9 t haSUP?1/SUP. M. × giganteus shoots contained 339 kg haSUP?1/SUP N in August, declining to 193 kg haSUP?1/SUP in December, compared to 168 and 58 kg haSUP?1/SUP for P. virgatum. The results suggest substantial remobilization of N to roots and rhizomes, yet still a substantial loss with December harvests. The shoot and rhizome biomass increase of 33.6 t haSUP?1/SUP during the 2-month period between June and August for M. × giganteus corresponds to a solar energy conversion of 4.4% of solar energy into biomass, one of the highest recorded and confirming the remarkable productivity potential of this plant. 展开▼

机译：美国C4多年生草Miscanthus×Giganteus的第一个复制的生产力试验显示，这种新兴的木质纤维素生物能量原料是提供显着高的年产量。这涵盖了种植后的5年，将这种高生产率置于缺乏施肥的情况下，不确定。预期，但直到现在未经证实的，两种物种的益处都是根源和长期根茎的投资。本研究在芽，根和根茎中检查了5-7次产量，生物量，C和N.对于M.×Giganteus的平均峰拍生物量在5-7周期为46.5 t ha ？1 在10月份下降到38.1 t ha ？1 完成衰老在12月收获，20.7吨HA ？1 下降至11.3 t ha ？1 用于Panicum Virgatum。没有证据表明年龄率下降。平均根茎生物量在M.×Giganteus的21.5 t ha β1相比于7.2 t ha α1-1 ，而Root Biomass在5.6时相似-5.9 t ha ？1 。 M.×Giganteus射击在8月包含339千克HA ^{1 N，达到193千克HA ^{？1 在12月份，相比于168和58公斤HA ^{？ 1 用于virgatum。结果表明，N对根和根茎的大量重新化，但仍然具有大幅损失与12月收获。拍摄和根茎生物量增加33.6 t ha ？1 在6月至8月的2个月内，对于M.×giganteus，对应于太阳能的4.4％的太阳能转换为生物量，一个最高的记录和确认该植物的显着生产力潜力。}}} 展开▼

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《Global change biology bioenergy》 |2012年第5期|共11页

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Frank G. Dohleman; Emily A. Heaton; Rebecca A. Arundale; Stephen P. Long;
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bioenergybiofuelC4 photosynthesisnitrogen use efficiencyphotosynthetic efficiencyrhizomerootssolar energy conversion efficiency;

机译：生物能萎缩纽埃尔核核核心使用效率照片合成效率效率效率;

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机译：模拟生物化，产量和生物化作物的生长，产量和产量稳定性的空间和动态变异 miscanthus？×β-α？ giganteus 在孔雀石统一中的 panicum virgatum 状态

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7. Seasonal dynamics of above- and below-ground biomass and nitrogen partitioning in Miscanthus × giganteus and Panicum virgatum across three growing seasons [O] . Frank G. Dohleman, Emily A. Heaton, Rebecca A. Arundale, 2012

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Seasonal dynamics of above- and below-ground biomass and nitrogen partitioning in EMMiscanthus/EM?×?EMgiganteus/EM and EMPanicum virgatum/EM across three growing seasons

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