Do we need new approaches for horticultural crop modelling?

Stutzel H; Kahlen K

首页> 外文期刊>Acta Horticulturae >Do we need new approaches for horticultural crop modelling?

【24h】

Do we need new approaches for horticultural crop modelling?

机译：我们需要新的园艺作物建模方法吗？

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Needs for improvements of horticultural crops models are seen in the description of the morphological structure and the genotypic reaction characteristics of plants. Structural models allow detailed descriptions and analyses of the interactions between the plant and its biotic and abiotic environment, particularly light. Lindenmayer systems (L-systems) are a closely related to formal languages and allow the modelling of structural development using simple principles. However, with increasing considerations of interactions between structural growth and the environment or physiological processes the elegance of L-systems which lies in their simplicity, declines. A promising coevolution of physiological crop models and plant genetics can be foreseen: The advancement of genetic knowledge will improve the physiological knowledge on which growth models are based, and growth models will assist genetics in better understanding the physiological impact of DNA sequences. Also, practical plant breeding could benefit from gene-based crop growth models in the identification of breeding objectives as well as the optimization of testing. As the variety of modelling approaches increases modellers are facing the interesting task to combine new approaches with further development of traditional physiological crop modelling.

机译：在描述植物的形态结构和基因型反应特性时，可以看出需要改进园艺作物模型。结构模型可以对植物及其生物和非生物环境（尤其是光）之间的相互作用进行详细描述和分析。 Lindenmayer系统（L-systems）与形式语言密切相关，并允许使用简单的原理对结构开发进行建模。但是，随着对结构增长与环境或生理过程之间相互作用的更多考虑，L系统的简洁性下降了。可以预见生理作物模型和植物遗传学将有希望的协同进化：遗传知识的发展将改善生长模型所基于的生理知识，而生长模型将帮助遗传学更好地理解DNA序列的生理影响。同样，实用的植物育种可以从基于基因的作物生长模型中受益，从而确定育种目标并优化测试。随着建模方法的多样性，建模人员面临着将新方法与传统生理作物建模的进一步发展相结合的有趣任务。

著录项

来源
《Acta Horticulturae》 |2004年第654期|共5页
作者
Stutzel H; Kahlen K;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类园艺;
关键词
genes; genotypes; growth; growth models; horticultural crops; light; mathematical models; nucleotide sequences; plant breeding; plant morphology;

机译：基因;基因型;生长;生长模型;园艺作物;光照;数学模型;核苷酸序列;植物育种;植物形态;

相似文献

外文文献
中文文献
专利

1. Do we need new approaches for horticultural crop modelling? [J] . Stutzel H, Kahlen K Acta Horticulturae . 2004,第654期

机译：我们需要新的园艺作物建模方法吗？
2. Developing, Parameterizing, and Testing of Dynamic Crop Growth Models for Horticultural Crops [J] . K.J. Boote, J.M.S. Scholberg Acta Horticulturae . 2006,第718期

机译：开发，参数化和测试园艺作物动态作物生长模型
3. Strategies to Preserve Postharvest Quality of Horticultural Crops and Superficial Scald Control: From Diphenylamine Antioxidant Usage to More Recent Approaches [J] . Cindy Dias, Ana L. Amaro, ?ngelo C. Salvador, Antioxidants . 2020,第4期

机译：保护园艺作物采后质量的策略和浅表烫伤：从二苯胺抗氧化用法到更新的方法
4. Baseline environmental testing of candidate salad crops with horticultural approaches and constraints typical of spaceflight [C] . Gregory D. Goins, Neil C. Yorio, Gary W. Stutte, International Conference on Environmental Systems . 2004

机译：候选沙拉作物与园艺方法的基线环境检测和典型空间的限制
5. Optimizing irrigated horticulture and prediction of climate change impacts by crop modeling for Niger. [D] . Sitta, Aissatou. 2011

机译：通过尼日尔的作物模型优化灌溉园艺并预测气候变化影响。
6. Strategies to Preserve Postharvest Quality of Horticultural Crops and Superficial Scald Control: From Diphenylamine Antioxidant Usage to More Recent Approaches [O] . Cindy Dias, Ana L. Amaro, Ângelo C. Salvador, 2020

机译：维持园艺作物收获后品质和浅表烫伤控制的策略：从二苯胺抗氧化剂的使用到最新的方法
7. USE OF CROP GROWTH MODELS TO EVALUATE PHYSIOLOGICAL TRAITS IN GENOTYPES OF HORTICULTURAL CROPS [O] . A. Van, Der Ploeg 2008

机译：利用作物生长模型评估园艺作物基因型的生理性状
8. Approaches for Modeling Crop-Pollutant Interactions in the NCLAN Program [R] . Kercher, J. R., King, D. A., Bingham, G. E. 1982

机译：NCLaN计划中作物 - 污染物相互作用模拟方法

Do we need new approaches for horticultural crop modelling?

摘要

著录项

相似文献

相关主题

期刊订阅