Ability of the APSIM Next Generation Eucalyptus model to simulate complex traits across contrasting environments-Reference-Cited by-同舟云学术

Ability of the APSIM Next Generation Eucalyptus model to simulate complex traits across contrasting environments

Published:2020-03 Issue: Volume:419 Page:108959
ISSN:0304-3800
Container-title:Ecological Modelling
language:en
Short-container-title:Ecological Modelling

Author:

Elli Elvis Felipe^ORCID,Huth Neil,Sentelhas Paulo Cesar^ORCID,Carneiro Rafaela Lorenzato,Alvares Clayton Alcarde^ORCID

Funder

São Paulo Research Foundation - FAPESP

Brazilian Research Council – CNPq

PhD scholarships

FAPESP

Exchange scholarship at CSIRO Agriculture and Food

26 forestry companies, nine universities, and research institutions from Brazil, Uruguay, and the United States

Publisher

Elsevier BV

Subject

Ecological Modelling

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4. Modeling monthly meteorological and agronomic frost days, based on minimum air temperature, in Center-Southern Brazil;Alvares;Theor. Appl. Climatol.,2018

5. Carbon sequestration by white spruce shelterbelts in Saskatchewan, Canada: 3PG and CBM-CFS3 model simulations;Amichev;Ecol. Modell.,2016

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1. Investigating the effects of APSIM model configuration on model outputs across different environments;Frontiers in Agronomy;2023-07-31

2. Decision-Tree Application to Predict and Spatialize the Wood Productivity Probabilities of Eucalyptus Plantations;Forests;2023-06-29

3. Quantitative sensitivity of crop productivity and water productivity to precipitation during growth periods in the Agro-Pastoral Ecotone of Shanxi Province, China, based on APSIM;Agricultural Water Management;2023-06

4. Relevance of soil fertility spatial databases for parameterizing APSIM-wheat crop model in Moroccan rainfed areas;Agronomy for Sustainable Development;2022-08-22

5. Nitrate Uptake from an Aquifer by Two Plantation Forests: Plausibility Strengthened by Process-Based Modelling;Forests;2022-01-26