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--- a/JSchnable.tex
+++ b/JSchnable.tex
@@ -14,7 +14,7 @@
 \usepackage{color}
 \usepackage{verbatim}
 \definecolor{unlred}{rgb}{0.81,0.0,0.0}
-\definecolor{danielblack}{rgb}{0.0,0.0,0.0}
+
 % Comment the following lines to use the default Computer Modern font
 % instead of the Palatino font provided by the mathpazo package.
 % Remove the 'osf' bit if you don't like the old style figures.
@@ -83,7 +83,8 @@
 \centerline{\huge \textsc{Curriculum Vitae}}
 \vspace{0.25in}
 \centerline{\huge \textsc{\name}}
-\centerline{\begin{CJK*}{UTF8}{gbsn}詹姆斯 . 施纳博\end{CJK*}}
+%Updated transliteration of Schnable, thanks to Zhikai Liang
+\centerline{\begin{CJK*}{UTF8}{gbsn}詹姆斯 . 施耐博\end{CJK*}}
 
 % Alternatively, print name centered and bold:
 %\centerline{\huge \bf \name}
@@ -120,7 +121,8 @@
 %EMPLOYMENT
 \section*{Employment}
 \begin{itemize}
-\item Assistant Professor \hfill 2014-present \\Department of Agronomy and Horticulture, University of Nebraska-Lincoln
+\item Associate Professor \hfill 2019-Present \\Department of Agronomy and Horticulture, University of Nebraska-Lincoln
+\item Assistant Professor \hfill 2014-2019 \\Department of Agronomy and Horticulture, University of Nebraska-Lincoln
 \item NSF PGRP Fellowship Supported Visiting Scholar \hfill 2014\\Chinese Academy of Agricultural Sciences
 \item NSF PGRP Fellowship Supported Postdoctoral Researcher \hfill 2013\\Donald Danforth Plant Science Center
 \end{itemize}
@@ -144,39 +146,38 @@
 \end{itemize}
 
 \section*{Research Support}
+\begin{center}
+\$16.5M in federal funding as PI or co-PI (excludes CRRI).
+\end{center}
 \subsection*{Federal (Current)}
 \begin{itemize}
-\item NSF ``RoL: FELS: EAGER: Genetic Constraints on the Increase of Organismal Complexity Over Time'' (PI)
-\item USDA-NIFA ``Identifying mechanisms conferring low temperature tolerance in maize, sorghum, and frost tolerant relatives.'' (PI)
-\item NSF ``BTT EAGER: A wearable plant sensor for real-time monitoring of sap flow and stem diameter to accelerate breeding for water use efficiency.'' (PI)
-\item NSF ``RII Track-2 FEC: Functional analysis of nitrogen responsive networks in Sorghum.'' (co-PI)
-\item ARPA-E ``In-plant and in-soil microsensors enabled high-throughput phenotyping of root nitrogen uptake and nitrogen use efficiency.'' (co-PI)
-\item ARPA-E ``Low cost wireless chemical sensor networks.'' (co-PI)
-\item FFAR ``Crops in silico: Increasing crop production by connecting models from the microscale to the macroscale.'' (co-PI)
-\item NSF ``Center for Root and Rhizobiome Innovation.'' (Investigator \& Management Team Member)
+\item DOE ``TGCM: (T)rait, (G)ene, and (C)rop Growth (M)odel directed targeted gene characterization in sorghum.'' \$2.7M 2019-2022 (PI)
+\item NSF ``RoL: FELS: EAGER: Genetic constraints on the increase of organismal complexity over time.'' \$300k 2018-2020 (PI)
+\item USDA-NIFA ``Identifying mechanisms conferring low temperature tolerance in maize, sorghum, and frost tolerant relatives.'' \$455k 2015-2019 (PI)
+\item NSF ``BTT EAGER: A wearable plant sensor for real-time monitoring of sap flow and stem diameter to accelerate breeding for water use efficiency.'' \$300k 2019-2021 (PI)
+\item NSF ``RII Track-2 FEC: Functional analysis of nitrogen responsive networks in Sorghum.'' \$4M 2018-2022 (co-PI)
+\item ARPA-E ``In-plant and in-soil microsensors enabled high-throughput phenotyping of root nitrogen uptake and nitrogen use efficiency.'' \$1.1M 2017-2019 (co-PI)
+\item ARPA-E ``Low cost wireless chemical sensor networks.'' \$2.2M 2019-2022 (co-PI)
+\item FFAR ``Crops in silico: Increasing crop production by connecting models from the microscale to the macroscale.'' \$5M 2019-2023 (co-PI)
+\item NSF ``Center for Root and Rhizobiome Innovation.'' \$20M 2016-2021 (Investigator \& Management Team Member)
 %\item DOE-JGI Community Sequencing Program ``Expanding grass genome comparators.''
 \end{itemize}
 \subsection*{Non-Federal (Current)}
 \begin{itemize}
-\item North Central Sun Grants ``High through put phenotyping to accelerate biomass sorghum improvement.'' (co-PI)
-\item Nebraska Corn Board ``Genomes to Fields (G2F) - Predicting Final Yield Performance in Variable Environments.'' (PI)
-\item Wheat Innovation Foundation ``A Low-Cost, High-Throughput Cold Stress Perception Assay for Sorghum Breeding.'' (co-PI)
-\item Daugherty Water for Food Global Institute ``Optimizing the Water Use Efficiency of C4 Grain Crops Using Comparative Phenomics and Crop Models to Guide Breeding Targets.'' (PI)
-\end{itemize}
-\subsection*{Non-Academic}
-\begin{itemize}
-\item NSF (to EnGeniousAg) ``SBIR Phase I: Low-cost in-planta nitrate sensor''
-\item USDA (to EnGeniousAg) ``SBIR Phase I: Low-cost field-deployable sensors to monitor nitrate in soil and water.''
+\item North Central Sun Grants ``High through put phenotyping to accelerate biomass sorghum improvement.'' \$193k 2017-2019 (co-PI)
+\item Nebraska Corn Board ``Genomes to Fields (G2F) - Predicting Final Yield Performance in Variable Environments.'' \$200k \textit{(to date)} 2016-2020 (PI)
+\item Wheat Innovation Foundation ``A Low-Cost, High-Throughput Cold Stress Perception Assay for Sorghum Breeding.'' \$205k 2019-2021 (co-PI)
+\item Daugherty Water for Food Global Institute ``Optimizing the Water Use Efficiency of C4 Grain Crops Using Comparative Phenomics and Crop Models to Guide Breeding Targets.'' \$27k 2017-2019 (PI)
 \end{itemize}
 \subsection*{Completed Projects}
 \begin{itemize}
-\item ICRISAT ``Application of tGBS And Genomic Selection to a Hybrid Pearl Millet Breeding Program.''
-\item Iowa Corn Board ``Field Deployable Cameras to Quantify Dynamic Whole Plant Phenotypes in the Field.'' (PI)
-\item ConAgra ``Marker Discovery \& Genetic Diversity.'' (in popcorn) (PI)
-\item Layman Award ``Developing genomic tools in proso millet and comparing water use efficiency among panicoid grass crops (proso millet, corn, sorghum, foxtail millet)'' (co-PI)
-\item USDA/NSF Joint Program ``PAPM EAGER: Transitioning to the next generation plant phenotyping robots.'' (co-PI)
-\item Midwest Big Data Hub ``Automatic feature extraction pipeline development for high-throughput plant phenotyping'' (co-PI)
-\item Agricultural Research Division ``A High Throughput Phenotyping Reference Dataset for GWAS in Sorghum'' (PI)
+\item ICRISAT ``Application of tGBS And Genomic Selection to a Hybrid Pearl Millet Breeding Program.'' \$45k 2015-2017
+\item Iowa Corn Board ``Field Deployable Cameras to Quantify Dynamic Whole Plant Phenotypes in the Field.'' \$45k 2014-2016 (PI)
+\item ConAgra ``Marker Discovery \& Genetic Diversity.'' (in popcorn) \$162k 2014-2017 (replacement PI)
+%\item Layman Award ``Developing genomic tools in proso millet and comparing water use efficiency among panicoid grass crops (proso millet, corn, sorghum, foxtail millet)''  (co-PI)
+\item USDA/NSF Joint Program ``PAPM EAGER: Transitioning to the next generation plant phenotyping robots.'' \$285k 2016-2018  (co-PI)
+\item Midwest Big Data Hub ``Automatic feature extraction pipeline development for high-throughput plant phenotyping'' \$5k 2017-2018 (co-PI)
+\item Agricultural Research Division ``A High Throughput Phenotyping Reference Dataset for GWAS in Sorghum'' \$100k 2016-2018 (PI)
 \end{itemize}
 %\section*{Pending Support}
 %\begin{itemize}
@@ -184,6 +185,7 @@
 %\end{itemize}
 
 \section*{Economic Development}
+\subsection*{New Business Creation}
 \begin{itemize}
 \item Co-Founder, \href{https://www.engeniousag.com/}{EnGeniousAg LLC}\hfill2017-Present\\
 \textit{Designs, manufactures, and deploys low-cost, instant readout, high-performance, field-based nutrient sensors for crops, soil, and water, improving agronomic management practices, increasing grower profitability and reducing the environmental footprint of agriculture.}
@@ -191,6 +193,16 @@
 \textit{Using high throughput quantitative genetics and field phenotyping techologies to develop and commericialize higher yielding cultivars of crops already naturally adapted to using little water and growing arid regions where conventional agriculture fails in the absence of irrigation.}
 \item Co-Founder, \href{https://www.data2bio.com/}{Data2Bio LLC} (USA) \& \begin{CJK*}{UTF8}{gbsn}DATA生物科技（北京）有限公司\end{CJK*} (China) \hfill2010-Present\\
 \textit{Providing patented tGBS genotyping and genomic selection services to public and private sector plant and animal breeders in the USA and China.}
+\end{itemize}
+
+\subsection*{Economic Development Related Funding}
+\begin{itemize}
+\item NSF (to EnGeniousAg) ``SBIR Phase I: Low-cost in-planta nitrate sensor'' \$225k 2019-2020
+\item USDA (to EnGeniousAg) ``SBIR Phase I: Low-cost field-deployable sensors to monitor nitrate in soil and water.'' \$100k 2019-2020
+\end{itemize}
+
+\subsection*{Industry Cooperation}
+\begin{itemize}
 \item Scientific Advisory Council, GeneSeek, Inc\hfill2017-Present
 \item External Advisor to the Scientific Advisory Board, Indigo Agriculture\hfill2017
 \item External Advisor to the Scientific Advisory Board, Syngenta AG\hfill2016
@@ -199,14 +211,13 @@
 \section*{Advising}
 \begin{itemize}
 \item Current Advisees:
-Daniel Carvalho (PhD, Agronomy \& Horticulture),
-Zhikai Liang (PhD, Agronomy \& Horticulture),
 Chenyong Miao (PhD, Agronomy \& Horticulture),
 Xiuru Dai (PhD, Shandong Agriculture University),
-Preston Hurst (MS, Agronomy \& Horticulture),
-Nate Korth (co-advised, PhD, Food Science)
+Mackenzie Zweiner (MS, Agronomy \& Horticulture),
+Nate Korth (co-advised, PhD, Food Science),
+Fangyi Li (co-advised, PhD, Complex Biosystems)
 \item Thesis Committee: Abbas Atefi (PhD, Biological Systems Engineering), Yen Ning Chai (PhD, Agronomy \& Horticulture), Waseen Huassain (PhD, Agronomy \& Horticulture), Ying Ren (PhD, Agronomy \& Horticulture), Mallory Suhr (PhD, Food Science), Qinnan Yang (PhD, Food Science), Ronghao Wang (PhD, Statistics), Piyush Pandey (MS, Biological Systems Engineering), Thao Yu (MS, Statistics)
-\item Graduated Advisees: Xianjun Lai (PhD, Sichuan Agriculture University), Bhushit Agarwal (co-advised, MS, Computer Science \& Engineering), Srinidhi Bashyam (co-advised, MS, Computer Science \& Engineering)
+\item Graduated Advisees: Daniel Carvalho (PhD, Agronomy \& Horticulture), Zhikai Liang (PhD, Agronomy \& Horticulture), Preston Hurst (MS, Agronomy \& Horticulture), Xianjun Lai (PhD, Sichuan Agriculture University), Bhushit Agarwal (co-advised, MS, Computer Science \& Engineering), Srinidhi Bashyam (co-advised, MS, Computer Science \& Engineering)
 \end{itemize}
 
 \section*{Publications}
@@ -222,9 +233,9 @@ H-Index: 25 \href{https://scholar.google.com/citations?user=cik4JVYAAAAJ}{Google
 
 \noindent \textbf{Carvalho DS}, \textbf{Schnable JC}.$^\S$ IsoSeq transcriptome assembly of C3 panicoid grasses provides tools to study evolutionary change in the Panicoideae. \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/689356}{10.1101/689356}\\
 
-\noindent \textbf{Miao C}, \textbf{Hoban TP}$^\ddagger$, \textbf{Pages A}$^\ddagger$, Xu Z, Rodene E, Ubbens J, Stavness I, Yang J, \textbf{Schnable JC}.$^\S$ Simulated plant images improve maize leaf counting accuracy. \textsc{bioRxiv} doi: \ref{https://doi.org/10.1101/706994}{10.1101/706994}\\
+\noindent \textbf{Miao C}, \textbf{Hoban TP}$^\ddagger$, \textbf{Pages A}$^\ddagger$, Xu Z, Rodene E, Ubbens J, Stavness I, Yang J, \textbf{Schnable JC}.$^\S$ Simulated plant images improve maize leaf counting accuracy. \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/706994}{10.1101/706994}\\
 
-\noindent \textbf{Dai X}, Xu Z, \textbf{Liang Z}, Tu X, Zhong S, \textbf{Schnable JC},$^\S$ Li P.$^\S$ Non-homology-based prediction of gene functions. \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/730473}{10.1101/730473} \\
+\noindent \textbf{Dai X}, Xu Z, \textbf{Liang Z}, Tu X, Zhong S, \textbf{Schnable JC},$^\S$ Li P.$^\S$ Non-homology-based prediction of gene functions. \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/730473}{10.1101/730473}
 
 \subsection*{Other Manuscripts in Review}
 
@@ -239,13 +250,14 @@ H-Index: 25 \href{https://scholar.google.com/citations?user=cik4JVYAAAAJ}{Google
 
 \item Qi P, Eudy D, \textbf{Schnable JC}, Schmutz J, Raymer P, Devos KM.$^\S$ (2019) High density genetic maps of seashore paspalum using genotyping-by-sequencing and their relationship to the \textit{Sorghum bicolor} genome. \textsc{Scientific Reports} \textit{(Accepted)}
 
-\item Ali MA, Wang X, Chen Y, Jiao Y, Mahal NK, Satyanarayana M, Castellano MJ, \textbf{Schnable JC}, Schnable PS, Dong L$^\S$ (2019) Continuous Monitoring of Nitrate Variation Using Miniature Soil Sensor with Poly(3-octyl-thiophene) and Molybdenum Disulfide Nanocomposite. \textsc{ACS Applied Materials & Interfaces} doi: \href{https://doi.org/10.1021/acsami.9b07120}{10.1021/acsami.9b07120}
+\item \textbf{Schnable JC}$^\S$ (2019) Genes and gene models, an important distinction. \textsc{New Phytologist} doi: \href{https://doi.org/10.1111/nph.16011}{10.1111/nph.16011}\\
+\textit{Commissioned Material: Tansley Insight Medal}
 
-\item \textbf{Schnable JC}$^\S$ (2019) Genes and gene models, an important distinction. \textsc{New Phytologist} doi: \href{https://doi.org/10.1111/nph.16011}{10.1111/nph.16011}
+\item Ge Y$^\S$, Atefi A, Zhang H, \textbf{Miao C}, Ramamurthy RK, \textbf{Sigmon B}, Yang J, \textbf{Schnable JC} (2019) High-throughput analysis of leaf physiological and chemical traits with VIS-NIR-SWIR spectroscopy: A case study with a maize diversity panel. \textsc{Plant Methods} doi: \href{https://doi.org/10.1186/s13007-019-0450-8}{10.1186/s13007-019-0450-8}
 
-\item Li Y, \textbf{Li D}, Jiao Y, \textbf{Schnable JC}, Li Y, Li H, Chen H, Hong H, Zhang T, Liu B, Liu Z, You Q, Tian Y, Gou Y, Guan R, Zhang L, Chang R, Zhang Z, Reif J, Zhou X, Schnable PS, Qiu L.$^\S$ (2019)Identification of Loci Controlling Adaptation in Chinese Soybean Landraces via a Combination of Conventional and Bioclimatic GWAS. \textsc{Plant Biotechnology Journal} doi: \href{https://doi.org/10.1111/pbi.13206}{10.1111/pbi.13206}
+\item Ali MA, Wang X, Chen Y, Jiao Y, Mahal NK, Satyanarayana M, Castellano MJ, \textbf{Schnable JC}, Schnable PS, Dong L$^\S$ (2019) Continuous Monitoring of Nitrate Variation Using Miniature Soil Sensor with Poly(3-octyl-thiophene) and Molybdenum Disulfide Nanocomposite. \textsc{ACS Applied Materials \& Interfaces} doi: \href{https://doi.org/10.1021/acsami.9b07120}{10.1021/acsami.9b07120}
 
-\item Ge Y$^\S$, Atefi A, Zhang H, \textbf{Miao C}, Ramamurthy RK, \textbf{Sigmon B}, Yang J, \textbf{Schnable JC} (2019) High-throughput analysis of leaf physiological and chemical traits with VIS-NIR-SWIR spectroscopy: A case study with a maize diversity panel. \textsc{Plant Methods} doi: \href{https://doi.org/10.1186/s13007-019-0450-8}{10.1186/s13007-019-0450-8}
+\item Li Y, \textbf{Li D}, Jiao Y, \textbf{Schnable JC}, Li Y, Li H, Chen H, Hong H, Zhang T, Liu B, Liu Z, You Q, Tian Y, Gou Y, Guan R, Zhang L, Chang R, Zhang Z, Reif J, Zhou X, Schnable PS, Qiu L.$^\S$ (2019)Identification of Loci Controlling Adaptation in Chinese Soybean Landraces via a Combination of Conventional and Bioclimatic GWAS. \textsc{Plant Biotechnology Journal} doi: \href{https://doi.org/10.1111/pbi.13206}{10.1111/pbi.13206}
 
 \item Atefi A, Ge Y,$^\S$  Pitla S, \textbf{Schnable JC} (2019) \textit{In vivo} human-like robotic phenotyping of leaf traits in maize and sorghum. \textsc{Computers and Electronics in Agriculture} doi: \href{https://doi.org/10.1016/j.compag.2019.104854}{10.1016/j.compag.2019.104854}
 
@@ -377,7 +389,7 @@ H-Index: 25 \href{https://scholar.google.com/citations?user=cik4JVYAAAAJ}{Google
 \item Tang H, Lyons E, Pedersen B, {\bf Schnable JC}, Paterson AH, Freeling M. (2011) Screening synteny blocks in pairwise genome comparisons through integer programming. \textsc {BMC Bioinformatics} doi: \href{http://dx.doi.org/10.1186/1471-2105-12-102}{10.1186/1471-2105-12-102}
 
 \item {\bf Schnable JC}, Pedersen BS, Subramaniam S, Freeling M$^\S$ (2011) Dose-sensitivity, conserved noncoding sequences and duplicate gene retention through multiple tetraploidies in the grasses. \textsc {Frontiers in Plant Science} doi: \href{http://dx.doi.org/10.3389/fpls.2011.00002}{10.3389/fpls.2011.00002}\\
-{\it Commentary by Birchlier and Veitia also published in Frontiers in Plant Science doi: \href{http://dx.doi.org/10.3389/fpls.2011.00064}{10.3389/fpls.2011.00064}}
+{\it Commentary by Birchlier and Veitia also published in Frontiers in Plant Science} doi: \href{http://dx.doi.org/10.3389/fpls.2011.00064}{10.3389/fpls.2011.00064}
 
 %<br>{\textsc (<a href="http://www.frontiersin.org/plant%20genetics%20and%20genomics/10.3389/fpls.2011.00064/full">Commentary on this article</a> by Birchler and Veitia, also published in Frontiers in Plant Science)}
 
@@ -405,8 +417,10 @@ H-Index: 25 \href{https://scholar.google.com/citations?user=cik4JVYAAAAJ}{Google
 
 %\begin{itemize}
 
-\subsection*{Conference Papers}
+\subsection*{Peer Reviewed Conference Papers}
 \begin{etaremune}
+\item \textbf{Miao C}, \textbf{Pages A},$^\ddagger$ Xu Z, \textbf{Schnable JC} (2019)  Sorghum organ classification in hyperspectral images using supervised machine learning classification methods. \textsc{Second International Workshop on Machine Learning for Cyber-Agricultural Systems (MLCAS 2019)} Ames, IA, USA
+\item \textbf{Askey B},$^\ddagger$ Yang Q, Benson AK, \textbf{Schnable JC} (2019) Computer vision phenotyping of 371 Sorghum bicolor BTx623 x ISC3620C recombinant inbred lines for QTL detection. \textsc{Second International Workshop on Machine Learning for Cyber-Agricultural Systems (MLCAS 2019)} Ames, IA, USA
 \item Jiao Y, Wang X, Chen Y, Castellano MJ, \textbf{Schnable JC}, Schnable PS, Dong L (2019) In-planta nitrate detection using insertable plant microsensor. \textsc{20th International Conference on Solid-State Sensors, Actuators and Microsystems} Berlin, Germany
 \item Ali MA, Wang X, Chen Y, Jiao Y, Castellano MJ, \textbf{Schnable JC}, Schnable PS, Dong L (2019) Novel all-solid-state soil nutrient sensor using nanocomposite of poly(3-octyl-thiophene) and molybdenum sulfate. \textsc{20th International Conference on Solid-State Sensors, Actuators and Microsystems} Berlin, Germany
 \item Behera S, Deogun JS, \textbf{Lai X}, \textbf{Schnable JC} (2017) B529 DiCE: Discovery of Conserved Noncoding Sequences Efficiently. \textsc{IEEE BIBM 2017} Kansas City, MO, USA doi: \href{http://doi.org/10.1109/BIBM.2017.8217628}{10.1109/BIBM.2017.8217628}
@@ -431,11 +445,11 @@ H-Index: 25 \href{https://scholar.google.com/citations?user=cik4JVYAAAAJ}{Google
 \begin{itemize}
 \item Consortium for Integrated Translational Biology (CITB)\hfill2014-Present
 \item UNL Faculty Greenhouse Committee\hfill2015-Present
-\item Biotech Seminar Series Committee\hfill2017-Present
-\item Agronomy and Horticulture Faculty Advisory Committee\hfill2017-Present
 \item Nebraska Food for Health Center Faculty Advisory Committee\hfill2017-Present
 \item Department of Agronomy and Horticulture Awards Committee\hfill2019-Present
 \item Department of Agronomy and Horticulture Graduate Admissions Committee\hfill2019-Present
+\item Biotech Seminar Series Committee\hfill2017-2019
+\item Agronomy and Horticulture Faculty Advisory Committee\hfill2017-2019
 \item Agronomy and Horticulture Strategic Planning Committee\hfill2018-2019
 \item Department of Agronomy and Horticulture Peer Evaluation Committee\hfill2016-2018
 \item Search Committee, Nebraska EPSCoR/IDeA Director\hfill2018
@@ -490,6 +504,10 @@ Science
 %SEMINARS
 \section*{Invited Talks:}
 \subsection*{External at Institutions}
+\begin{itemize}
+  \item \textit{Miami University, Oxford, OH, USA\hfill(Sept. 2019)}
+  \item \textit{University of Massachusetts Amherst, Oxford, OH, USA\hfill(Sept. 2019)}
+\end{itemize}
 \begin{itemize}
 %item California State University-East Bay, Hayward, CA, USA\hfill2020
 %\item University of Miami, Miami, OH, USA\hfill2019
@@ -526,6 +544,10 @@ Science
 \begin{center}
 \emph{Invited presentations only. Excludes presentations selected based on abstracts or applications.}
 \end{center}
+\begin{itemize}
+  \item \textit{Guelph Plant Sciences Symposium (Student Organized), Guelph, Ontario, Canada\hfill(Nov. 2019)}
+  \item \textit{ASA-CSSA-SSSA International Annual Meeting, San Antonio, TX, USA \hfill(Nov. 2019)}
+\end{itemize}
 \begin{itemize}
 %\item Maximizing Genetic Gain in Plant Breeding, ASA-CSSA-SSSA International Annual Meeting, San Antonio, TX, USA\hfill2019
 \item Gene Mapping Session, Plant and Animal Genome, San Diego, CA, USA\hfill2019