Abstract

This study is a result of a project titled ‘‘Useful to Usable (U2U): Transforming Climate Variability and Change Information for Cereal Crop Producers”. This paper responds to the project goal to improve farm resiliency and proftability in the U.S. Corn Belt region by transforming existing meteorological dataset into usable knowledge and tools for the agricultural community.

A high-resolution agro-climatic dataset that covers the U.S. Corn Belt was built for the U2U project based on a Land Data Assimilation System (LDAS) framework. This data referred to as the Purdue Agro-climatic (PAC) dataset is a gridded, continuous dataset suitable for agrocli- matic and crop model studies over the U.S. Corn Belt. The dataset was created at 4 km, sub- daily spatiotemporal resolution and covers the period of 1981–2014. The dataset includes a range of variables such as daily maximum/minimum temperature, solar radiation, rainfall, evapotranspiration (ET), multilevel soil moisture and soil temperatures. The data were com- pared to feld measurements from Amerifux and the Soil Climate Analysis Network (SCAN), and with coarser but widely used atmospheric regional reanalysis data products. Validations indicate an overall good agreement between this dataset and feld measurements. The agree- ment is particularly high for radiation and temperature parameters and lesser for rainfall and soil moisture data. Despite the differences with observations, the data show improvements over the coarser resolution products and other available models and thus highlights the value of the dataset for agroclimatic and crop model studies.

This high-resolution dataset is available to the wider community, and can fll gaps in observed data records and increase accessibility for the agricultural sector, and for conduct- ing variety of if-then assessments.

Comments

This is the publishers version of Liu, Xing & Jacobs, E. & Kumar, Anil & Biehl, Larry & Andresen, Jeff & Niyogi, Dev. (2016). The Purdue Agro-climatic (PAC) dataset for the U.S. Corn Belt: Development and Initial Results. Climate Risk Management. 15. 10.1016/j.crm.2016.10.005.

Keywords

Agroclimatology, crop resiliency, agriculture meteorology, reanalysis, land data assimilation system, crop models

Date of this Version

10-25-2016

DOI

10.1016/j.crm.2016.10.005

Custom Citation

Liu, Xing & Jacobs, E. & Kumar, Anil & Biehl, Larry & Andresen, Jeff & Niyogi, Dev. (2016). The Purdue Agro-climatic (PAC) dataset for the U.S. Corn Belt: Development and Initial Results. Climate Risk Management. 15. 10.1016/j.crm.2016.10.005.

Embargo

11-25-2020

Download

Share

COinS