Poplar growth and yield in short rotation coppice: model simulations using the process model SECRETS

G. Deckmyn; I. Laureysens; J. Garcia; B. Muys; R. Ceulemans

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Poplar growth and yield in short rotation coppice: model simulations using the process model SECRETS

机译：杨树短轮伐期的生长和产量：使用过程模型SECRETS进行的模型模拟

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The process model SECRETS was adapted to simulate coppice growth of poplar. The effects of soil type, irrigation, nitrogen fertilization and rotation cycle on growth and yield were studied. Simulated average production on an agricultural soil was 12.4 t ha~(-1) year~(-1). Poplar growth was strongly reduced on sandy soils (6 t ha~(-1) year~(-1)). Irrigation increased yield on all soil types by 25% while fertilization increased yield by 26%. The highest yield was simulated for the combined irrigation/fertilization (22.45 t ha~(-1) year~(-1)). Length of rotation cycle greatly influenced yield; optimal rotation cycle in terms of yield was 3 or 4 years. The results clearly indicate a useful role for process models in predicting effects of management strategics on poplar yield in short rotation coppice.

机译：过程模型SECRETS适用于模拟杨树的小灌木林生长。研究了土壤类型，灌溉，氮肥和轮作周期对生长和产量的影响。在农业土壤上模拟的平均产量为12.4 t ha〜（-1）年〜（-1）。在沙质土壤上（6 t ha〜（-1）年〜（-1）），白杨的生长被大大降低。灌溉使所有土壤类型的产量增加25％，而施肥使产量增加26％。联合灌溉/施肥模拟最高产量（22.45 t ha〜（-1）年〜（-1））。旋转周期的长短极大地影响了产量。就产量而言，最佳轮作周期为3或4年。结果清楚地表明了过程模型在预测管理策略对短期轮作中杨树产量的影响方面的有用作用。

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来源
《Biomass & bioenergy》 |2004年第3期|p.221-227|共7页
作者
G. Deckmyn; I. Laureysens; J. Garcia; B. Muys; R. Ceulemans;
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作者单位

Research Group of Plant and Vegetation Ecology, University of Antwerpen UIA, Universiteitsplein 1, Wilrijk 2610, Belgium;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类生物能及其利用;
关键词
biomass; populus; fertilization; irrigation;

机译：生物量;杨;施肥;灌溉;

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专利

1. Development and evaluation of ForestGrowth-SRC a process-based model for short rotation coppice yield and spatial supply reveals poplar uses water more efficiently than willow [J] . Matthew J. Tallis, Eric Casella, Paul A. Henshall, Global change biology bioenergy . 2013,第1期

机译：森林生殖器的开发和评估 - SRC的基于过程的短旋转促销产量和空间供应模型揭示了杨树使用水比柳树更有效地使用水
2. Can the agricultural AquaCrop model simulate water use and yield of a poplar short?￠????rotation coppice? [J] . Terenzio Zenone, Reinhart Ceulemans, Joanna A. Horemans, Global change biology bioenergy . 2016,第6期

机译：农业AquaCrop模型可以模拟杨树矮化的水分利用和产量吗？
3. Comparison between two and five years rotation models in poplar, willow and black locust Short Rotation Coppices (SRC) in North West Italy [J] . Gianni Facciotto, Sara Bergante, Laura Rosso, Annals of Silvicultural Research . 2020,第1期

机译：意大利西北杨树，柳树和黑色蝗虫短旋转CPPPOCE（SRC）两五年旋转模型的比较
4. Biomass yield and fuel characteristics of short-rotation coppice (willow, poplar, empress tree) [C] . Jurgen Maier, Reinhold Vetter EuroSun . 2004

机译：短旋转Coppice的生物质产量和燃料特性（Willow，Poplar，皇后树）
5. Study of the effects of elevated atmospheric carbon dioxide concentrations and nitrogen fertilization on ecosystem processes in a fast growing short rotation coppice of poplars. [D] . Liberloo, Marion. 2006

机译：在快速生长的杨树矮轮作中研究大气中二氧化碳浓度升高和施氮对生态系统过程的影响。
6. Can the agricultural AquaCrop model simulate water use and yield of a poplar short‐rotation coppice? [O] . Joanna A. Horemans, Hanne Van Gaelen, Dirk Raes, -1

机译：农业的AquaCrop模型可以模拟杨树短轮伐木的水分利用和产量吗？
7. Development and evaluation of ForestGrowth-SRC a process-based model for short rotation coppice yield and spatial supply reveals poplar uses water more efficiently than willow [O] . Tallis, Matthew, Casella, E., Henshall, P., 2012

机译：ForestGrowth-sRC的开发和评估基于过程的短轮伐期产量和空间供应模型显示杨树比柳树更有效地使用水
8. Using a Growth and Yield Model (PTAEDA2) as a Driver for a Biological ProcessModel (MAESTRO) [R] . Baldwin, V. C., Burkhart, H. E., Dougherty, P. M., 1993

机译：使用增长和收益模型（pTaEDa2）作为生物过程模型的驱动因素（maEsTRO）

Poplar growth and yield in short rotation coppice: model simulations using the process model SECRETS

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