Last updated: 2020-12-23
Checks: 7 0
Knit directory: TARI_2020GS/
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Note that any generated files, e.g. HTML, png, CSS, etc., are not included in this status report because it is ok for generated content to have uncommitted changes.
These are the previous versions of the repository in which changes were made to the R Markdown (analysis/01-cleanTPdata.Rmd) and HTML (docs/01-cleanTPdata.html) files. If you’ve configured a remote Git repository (see ?wflow_git_remote), click on the hyperlinks in the table below to view the files as they were in that past version.
| File | Version | Author | Date | Message |
|---|---|---|---|---|
| Rmd | fae176a | wolfemd | 2020-12-23 | Publish the first set of analyses and files for TARI 2020 GS. |
Follow outlined GenomicPredictionChecklist and previous pipeline to process cassavabase data for ultimate genomic prediction.
Below we will clean and format training data.
Downloaded all TARI field trials.
data/DatabaseDownload_2020Dec18/.rm(list = ls())
library(tidyverse)
library(magrittr)
source(here::here("code", "gsFunctions.R"))Read DB data directly from the Cassavabase FTP server.
dbdata <- readDBdata(phenotypeFile = here::here("data/DatabaseDownload_2020Dec18",
"2020-12-18T183047phenotype_download.csv"), metadataFile = here::here("data/DatabaseDownload_2020Dec18",
"2020-12-18T174951metadata_download.csv"))
# meta<-read.csv(here::here('data/DatabaseDownload_2020Dec18','2020-12-18T174951metadata_download.csv'),stringsAsFactors
# = F)
dbdata %<>% mutate(locationName = ifelse(locationName == "bwanga", "Bwanga", locationName),
locationName = ifelse(locationName == "kasulu", "Kasulu", locationName))Make TrialType Variable
dbdata <- makeTrialTypeVar(dbdata)
dbdata %>% count(TrialType) %>% rmarkdown::paged_table()Looking at the studyName’s of trials getting NA for TrialType, which can’t be classified at present.
Here is the list of trials I am not including.
dbdata %>% filter(is.na(TrialType)) %$% unique(studyName) %>% write.csv(., file = here::here("output",
"TARI_trials_NOT_identifiable.csv"), row.names = F)Wrote to disk a CSV in the output/ sub-directory.
Should any of these trials have been included?
dbdata %>% filter(is.na(TrialType)) %$% unique(studyName) [1] "17uytbwanga" "18_CBSD_IMMUNE"
[3] "18_NAMIKONGA_S1" "18_NMKxAR37-80"
[5] "19_Seedling_Nursery_Chambezi" "2020_AYT_TP_BW"
[7] "2020_CBSD_IMMUNE_BUN" "2020_CBSD_IMMUNE_SEEDLING_NURSERY"
[9] "2020_CBSD_IMMUNE_UKE" "2020_CBSD_IMMUNE_UKG"
[11] "2020_GWAS_BUNDA" "2020_GWAS_Ukerewe"
[13] "2020_GWAS_UKIRIGURU" "2020_GxE_UKG"
[15] "2020_UYT1C_GAIRO" "95_iita_tz_materials"
[17] "ACCESSION FOR GENOTYPING" "bunda 2018"
[19] "CET_1_2016" "GXE KIBAHA"
[21] "IITA GENOTYPING PLATE" "ilonga_trial"
[23] "KIBAHA GERMPLASM" "local_germplam_Southern"
[25] "Local_germplasm_eastern" "Local_germplasm_islands"
[27] "local_germplasm_northern" "Local_germplasm_Nothern"
[29] "Local_germplasm_SMS" "LOCAL VARIETIES"
[31] "MULTILOCATIONAL_EZ_TP2" "NDL_OP_UK"
[33] "NEW_LOCAL_GERMPLASM_UKIRIGURU" "NGTZ18KBH_AYT5"
[35] "NGTZ18KBH_SEEDLING" "NGTZ_CBSDIMMUNE_16VAR_CHAMBZ"
[37] "NGTZKBH-2018-19-UYT2" "Old_local_germplasm_ukiriguru"
[39] "QC_CET_1" "QC_CET_2"
[41] "QC_PYT" "Seedlings_Kibaha"
[43] "TARI KIBAHA GERMPLASM" dbdata %<>% filter(!is.na(TrialType))
dbdata %>% group_by(programName) %>% summarize(N = n()) %>% rmarkdown::paged_table()# 12718 plotsMaking a table of abbreviations for renaming
traitabbrevs<-tribble(~TraitAbbrev,~TraitName,
"CMD1S","cassava.mosaic.disease.severity.1.month.evaluation.CO_334.0000191",
"CMD3S","cassava.mosaic.disease.severity.3.month.evaluation.CO_334.0000192",
"CMD6S","cassava.mosaic.disease.severity.6.month.evaluation.CO_334.0000194",
"CMD9S","cassava.mosaic.disease.severity.9.month.evaluation.CO_334.0000193",
"CBSD3S","cassava.brown.streak.disease.leaf.severity.3.month.evaluation.CO_334.0000204",
"CBSD6S","cassava.brown.streak.disease.leaf.severity.6.month.evaluation.CO_334.0000205",
"CBSD9S","cassava.brown.streak.disease.leaf.severity.9.month.evaluation.CO_334.0000206",
"CBSDRS","cassava.brown.streak.disease.root.severity.12.month.evaluation.CO_334.0000201",
#"CGM","Cassava.green.mite.severity.CO_334.0000033",
"CGMS1","cassava.green.mite.severity.first.evaluation.CO_334.0000189",
"CGMS2","cassava.green.mite.severity.second.evaluation.CO_334.0000190",
"DM","dry.matter.content.by.specific.gravity.method.CO_334.0000160",
# "DM","dry.matter.content.percentage.CO_334.0000092",
"PLTHT","plant.height.measurement.in.cm.CO_334.0000018",
"BRNHT1","first.apical.branch.height.measurement.in.cm.CO_334.0000106",
"SHTWT","fresh.shoot.weight.measurement.in.kg.per.plot.CO_334.0000016",
"RTWT","fresh.storage.root.weight.per.plot.CO_334.0000012",
"RTNO","root.number.counting.CO_334.0000011",
"TCHART","total.carotenoid.by.chart.1.8.CO_334.0000161",
"NOHAV","plant.stands.harvested.counting.CO_334.0000010")
traitabbrevs %>% rmarkdown::paged_table()# dbdata %>% colnames(.) %>% grep("fresh.root",.,value=T)
# dbdata$cassava.green.mite.severity.first.evaluation.CO_334.0000189 %>% summaryRun function renameAndSelectCols() to rename columns and remove everything unecessary
dbdata <- renameAndSelectCols(traitabbrevs, indata = dbdata, customColsToKeep = "TrialType")dbdata<-dbdata %>%
mutate(#CMD1S=ifelse(CMD1S<1 | CMD1S>5,NA,CMD1S),
CMD3S=ifelse(CMD3S<1 | CMD3S>5,NA,CMD3S),
CMD6S=ifelse(CMD6S<1 | CMD6S>5,NA,CMD6S),
CMD9S=ifelse(CMD9S<1 | CMD9S>5,NA,CMD9S),
CBSD3S=ifelse(CBSD3S<1 | CBSD3S>5,NA,CBSD3S),
CBSD6S=ifelse(CBSD6S<1 | CBSD6S>5,NA,CBSD6S),
CBSD9S=ifelse(CBSD9S<1 | CBSD9S>5,NA,CMD9S),
CBSDRS=ifelse(CBSDRS<1 | CBSDRS>5,NA,CBSDRS),
#CGM=ifelse(CGM<1 | CGM>5,NA,CGM),
CGMS1=ifelse(CGMS1<1 | CGMS1>5,NA,CGMS1),
CGMS2=ifelse(CGMS2<1 | CGMS2>5,NA,CGMS2),
DM=ifelse(DM>100 | DM<=0,NA,DM),
RTWT=ifelse(RTWT==0 | NOHAV==0 | is.na(NOHAV),NA,RTWT),
SHTWT=ifelse(SHTWT==0 | NOHAV==0 | is.na(NOHAV),NA,SHTWT),
RTNO=ifelse(RTNO==0 | NOHAV==0 | is.na(NOHAV),NA,RTNO),
NOHAV=ifelse(NOHAV==0,NA,NOHAV),
NOHAV=ifelse(NOHAV>42,NA,NOHAV),
RTNO=ifelse(!RTNO %in% 1:10000,NA,RTNO))dbdata <- dbdata %>% mutate(HI = RTWT/(RTWT + SHTWT))I anticipate this will not be necessary as it will be computed before or during data upload.
For calculating fresh root yield:
dbdata <- dbdata %>% mutate(PlotSpacing = ifelse(programName != "IITA", 1, ifelse(studyYear <
2013, 1, ifelse(TrialType %in% c("CET", "GeneticGain", "ExpCET"), 1, 0.8))))
maxNOHAV_byStudy <- dbdata %>% group_by(programName, locationName, studyYear, studyName,
studyDesign) %>% summarize(MaxNOHAV = max(NOHAV, na.rm = T)) %>% ungroup() %>%
mutate(MaxNOHAV = ifelse(MaxNOHAV == "-Inf", NA, MaxNOHAV))
write.csv(maxNOHAV_byStudy %>% arrange(studyYear), file = here::here("output", "maxNOHAV_byStudy.csv"),
row.names = F)# I log transform yield traits to satisfy homoskedastic residuals assumption of
# linear mixed models
dbdata <- left_join(dbdata, maxNOHAV_byStudy) %>% mutate(RTWT = ifelse(NOHAV > MaxNOHAV,
NA, RTWT), SHTWT = ifelse(NOHAV > MaxNOHAV, NA, SHTWT), RTNO = ifelse(NOHAV >
MaxNOHAV, NA, RTNO), HI = ifelse(NOHAV > MaxNOHAV, NA, HI), FYLD = RTWT/(MaxNOHAV *
PlotSpacing) * 10, DYLD = FYLD * (DM/100), logFYLD = log(FYLD), logDYLD = log(DYLD),
logTOPYLD = log(SHTWT/(MaxNOHAV * PlotSpacing) * 10), logRTNO = log(RTNO), PropNOHAV = NOHAV/MaxNOHAV)
# remove non transformed / per-plot (instead of per area) traits
dbdata %<>% select(-RTWT, -SHTWT, -RTNO, -FYLD, -DYLD)dbdata <- dbdata %>% mutate(MCMDS = rowMeans(.[, c("CMD3S", "CMD6S", "CMD9S")], na.rm = T),
MCBSDS = rowMeans(.[, c("CBSD3S", "CBSD6S", "CBSD9S")], na.rm = T)) %>% select(-CMD3S,
-CMD6S, -CMD9S, -CBSD3S, -CBSD6S, -CBSD9S)This step is mostly copy-pasted from previous processing of IITA- and NRCRI-specific data.
Uses 3 flat files, which are available e.g. here. Specifically, IITA_GBStoPhenoMaster_33018.csv, GBSdataMasterList_31818.csv and NRCRI_GBStoPhenoMaster_40318.csv. I copy them to the data/ sub-directory for the current analysis.
In addition, DArT-only samples are now expected to also have phenotypes. Therefore, checking for matches in new flatfiles, deposited in the data/ (see code below).
library(tidyverse); library(magrittr)
gbs2phenoMaster<-dbdata %>%
select(germplasmName) %>%
distinct %>%
left_join(read.csv(here::here("data","NRCRI_GBStoPhenoMaster_40318.csv"),
stringsAsFactors = F)) %>%
mutate(FullSampleName=ifelse(grepl("C2a",germplasmName,ignore.case = T) &
is.na(FullSampleName),germplasmName,FullSampleName)) %>%
filter(!is.na(FullSampleName)) %>%
select(germplasmName,FullSampleName) %>%
bind_rows(dbdata %>%
select(germplasmName) %>%
distinct %>%
left_join(read.csv(here::here("data","IITA_GBStoPhenoMaster_33018.csv"),
stringsAsFactors = F)) %>%
filter(!is.na(FullSampleName)) %>%
select(germplasmName,FullSampleName)) %>%
bind_rows(dbdata %>%
select(germplasmName) %>%
distinct %>%
left_join(read.csv(here::here("data","GBSdataMasterList_31818.csv"),
stringsAsFactors = F) %>%
select(DNASample,FullSampleName) %>%
rename(germplasmName=DNASample)) %>%
filter(!is.na(FullSampleName)) %>%
select(germplasmName,FullSampleName)) %>%
bind_rows(dbdata %>%
select(germplasmName) %>%
distinct %>%
mutate(germplasmSynonyms=ifelse(grepl("^UG",germplasmName,ignore.case = T),
gsub("UG","Ug",germplasmName),germplasmName)) %>%
left_join(read.csv(here::here("data","GBSdataMasterList_31818.csv"),
stringsAsFactors = F) %>%
select(DNASample,FullSampleName) %>%
rename(germplasmSynonyms=DNASample)) %>%
filter(!is.na(FullSampleName)) %>%
select(germplasmName,FullSampleName)) %>%
bind_rows(dbdata %>%
select(germplasmName) %>%
distinct %>%
mutate(germplasmSynonyms=ifelse(grepl("^TZ",germplasmName,
ignore.case = T),
gsub("TZ","",germplasmName),germplasmName)) %>%
left_join(read.csv(here::here("data","GBSdataMasterList_31818.csv"),
stringsAsFactors = F) %>%
select(DNASample,FullSampleName) %>%
rename(germplasmSynonyms=DNASample)) %>%
filter(!is.na(FullSampleName)) %>%
select(germplasmName,FullSampleName)) %>%
distinct %>%
left_join(read.csv(here::here("data","GBSdataMasterList_31818.csv"),
stringsAsFactors = F) %>%
select(FullSampleName,OrigKeyFile,Institute) %>%
rename(OriginOfSample=Institute)) %>%
mutate(OrigKeyFile=ifelse(grepl("C2a",germplasmName,ignore.case = T),
ifelse(is.na(OrigKeyFile),"LavalGBS",OrigKeyFile),
OrigKeyFile),
OriginOfSample=ifelse(grepl("C2a",germplasmName,ignore.case = T),
ifelse(is.na(OriginOfSample),"NRCRI",OriginOfSample),
OriginOfSample))
## NEW: check for germName-DArT name matches
germNamesWithoutGBSgenos<-dbdata %>%
select(programName,germplasmName) %>%
distinct %>%
left_join(gbs2phenoMaster) %>%
filter(is.na(FullSampleName)) %>%
select(-FullSampleName)
## NEW: check for germName-DArT name matches
germNamesWithoutGBSgenos<-dbdata %>%
select(programName,germplasmName) %>%
distinct %>%
left_join(gbs2phenoMaster) %>%
filter(is.na(FullSampleName)) %>%
select(-FullSampleName)
germNamesWithDArT<-germNamesWithoutGBSgenos %>%
inner_join(read.table(here::here("data","chr1_RefPanelAndGSprogeny_ReadyForGP_72719.fam"),
header = F, stringsAsFactors = F)$V2 %>%
grep("TMS16|TMS17|TMS18|TMS19|TMS20",.,value = T, ignore.case = T) %>%
tibble(dartName=.) %>%
separate(dartName,c("germplasmName","dartID"),"_",extra = 'merge',remove = F)) %>%
group_by(germplasmName) %>%
slice(1) %>%
ungroup() %>%
rename(FullSampleName=dartName) %>%
mutate(OrigKeyFile="DArTseqLD", OriginOfSample="IITA") %>%
select(-dartID)
print(paste0(nrow(germNamesWithDArT)," germNames with DArT-only genos"))[1] "0 germNames with DArT-only genos"# first, filter to just program-DNAorigin matches
germNamesWithGenos<-dbdata %>%
select(programName,germplasmName) %>%
distinct %>%
left_join(gbs2phenoMaster) %>%
filter(!is.na(FullSampleName))
print(paste0(nrow(germNamesWithGenos)," germNames with GBS genos"))[1] "549 germNames with GBS genos"# program-germNames with locally sourced GBS samples
germNamesWithGenos_HasLocalSourcedGBS<-germNamesWithGenos %>%
filter(programName==OriginOfSample) %>%
select(programName,germplasmName) %>%
semi_join(germNamesWithGenos,.) %>%
group_by(programName,germplasmName) %>% # select one DNA per germplasmName per program
slice(1) %>% ungroup()
print(paste0(nrow(germNamesWithGenos_HasLocalSourcedGBS)," germNames with local GBS genos"))[1] "421 germNames with local GBS genos"# the rest (program-germNames) with GBS but coming from a different breeding program
germNamesWithGenos_NoLocalSourcedGBS<-germNamesWithGenos %>%
filter(programName==OriginOfSample) %>%
select(programName,germplasmName) %>%
anti_join(germNamesWithGenos,.) %>%
# select one DNA per germplasmName per program
group_by(programName,germplasmName) %>%
slice(1) %>% ungroup()
print(paste0(nrow(germNamesWithGenos_NoLocalSourcedGBS)," germNames without local GBS genos"))[1] "14 germNames without local GBS genos"genosForPhenos<-bind_rows(germNamesWithGenos_HasLocalSourcedGBS,
germNamesWithGenos_NoLocalSourcedGBS) %>%
bind_rows(germNamesWithDArT)
print(paste0(nrow(genosForPhenos)," total germNames with genos either GBS or DArT"))[1] "435 total germNames with genos either GBS or DArT"dbdata %<>%
left_join(genosForPhenos)
# Create a new identifier, GID
## Equals the value SNP data name (FullSampleName)
## else germplasmName if no SNP data
dbdata %<>%
mutate(GID=ifelse(is.na(FullSampleName),germplasmName,FullSampleName))snps_refpanel <- readRDS(here::here("output", "DosageMatrix_ImputationReferencePanel_StageVI_91119.rds"))
snps5629 <- readRDS(here::here("output", "DosageMatrix_DCas20_5629_EA_REFimputedAndFiltered.rds"))
dbdata %>% distinct(germplasmName, FullSampleName) %>% write.csv(., file = here::here("output",
"germplasmName_to_DNAname_matches_TARI_2020Dec22.csv"), row.names = F)
rownames(snps_refpanel) %>% write.csv(., file = here::here("output", "rownames_DosageMatrix_ImputationReferencePanel_StageVI_91119.csv"),
row.names = F)
rownames(snps5629) %>% write.csv(., file = here::here("output", "rownames_DosageMatrix_DCas20_5629_EA_REFimputedAndFiltered.csv"),
row.names = F)
rm(snps_refpanel, snps5629)
gc()# dbdata %>% count(germplasmName,FullSampleName) %>%
# filter(is.na(FullSampleName)) %$% unique(germplasmName)# going to check against SNP data
# DosageMatrix_ImputationReferencePanel_StageVI_91119.rds
# DosageMatrix_DCas20_5629_EA_REFimputedAndFiltered.rds
# snps<-readRDS(file=url(paste0('ftp://ftp.cassavabase.org/marnin_datasets/NGC_BigData/',
# 'DosageMatrix_RefPanelAndGSprogeny_ReadyForGP_73019.rds')))
# rownames_snps<-rownames(snps); rm(snps); gc() # current matches to SNP data
# dbdata %>% distinct(GID,germplasmName,FullSampleName) %>%
# semi_join(tibble(GID=rownames_snps)) %>% nrow() #1340 dbdata %>%
# distinct(GID,germplasmName,FullSampleName) %>%
# semi_join(tibble(GID=rownames_snps)) %>% filter(grepl('c1',GID,ignore.case =
# F)) # no C1 clones currently match dbdata %>%
# distinct(GID,germplasmName,FullSampleName) %>%
# semi_join(tibble(GID=rownames_snps)) %>% filter(grepl('c2',GID,ignore.case =
# F)) # no C2 clones either dbdata %>% distinct(GID,germplasmName,FullSampleName)
# %>% anti_join(tibble(GID=rownames_snps)) %>%
# filter(grepl('c1|c2',GID,ignore.case = T)) # definitely there are both C1 and
# C2 phenotypes # and there are C1 and C2 genotypes rownames_snps %>%
# grep('c1',.,value = T,ignore.case = T) %>% length # [1] 1762 rownames_snps %>%
# grep('c2',.,value = T,ignore.case = T) %>% length # [1] 4291saveRDS(dbdata, file = here::here("output", "TARI_CleanedTrialData_2020Dec18.rds"))The next step is to check the experimental design of each trial. If you are absolutely certain of the usage of the design variables in your dataset, you might not need this step.
Examples of reasons to do the step below:
One reason it might be important to get this right is that the variance among complete blocks might not be the same among incomplete blocks. If we treat a mixture of complete and incomplete blocks as part of the same random-effect (replicated-within-trial), we assume they have the same variance.
Also error variances might be heterogeneous among different trial-types (blocking scheme available) and/or plot sizes (maxNOHAV).
Start with cleaned data from previous step.
rm(list = ls())
gc() used (Mb) gc trigger (Mb) limit (Mb) max used (Mb)
Ncells 1165914 62.3 2914854 155.7 NA 2914854 155.7
Vcells 2289334 17.5 26506618 202.3 102400 41413491 316.0library(tidyverse)
library(magrittr)
source(here::here("code", "gsFunctions.R"))
dbdata <- readRDS(here::here("output", "TARI_CleanedTrialData_2020Dec18.rds"))dbdata %>% head %>% rmarkdown::paged_table()Detect designs
dbdata <- detectExptDesigns(dbdata)dbdata %>% count(programName, CompleteBlocks, IncompleteBlocks) %>% rmarkdown::paged_table()saveRDS(dbdata, file = here::here("output", "TARI_ExptDesignsDetected_2020Dec18.rds"))
sessionInfo()R version 4.0.2 (2020-06-22)
Platform: x86_64-apple-darwin17.0 (64-bit)
Running under: macOS Catalina 10.15.7
Matrix products: default
BLAS: /Library/Frameworks/R.framework/Versions/4.0/Resources/lib/libRblas.dylib
LAPACK: /Library/Frameworks/R.framework/Versions/4.0/Resources/lib/libRlapack.dylib
locale:
[1] en_US.UTF-8/en_US.UTF-8/en_US.UTF-8/C/en_US.UTF-8/en_US.UTF-8
attached base packages:
[1] stats graphics grDevices utils datasets methods base
other attached packages:
[1] magrittr_2.0.1 forcats_0.5.0 stringr_1.4.0 dplyr_1.0.2
[5] purrr_0.3.4 readr_1.4.0 tidyr_1.1.2 tibble_3.0.4
[9] ggplot2_3.3.2 tidyverse_1.3.0 workflowr_1.6.2
loaded via a namespace (and not attached):
[1] tidyselect_1.1.0 xfun_0.19 haven_2.3.1 colorspace_2.0-0
[5] vctrs_0.3.5 generics_0.1.0 htmltools_0.5.0 yaml_2.2.1
[9] rlang_0.4.9 later_1.1.0.1 pillar_1.4.7 withr_2.3.0
[13] glue_1.4.2 DBI_1.1.0 dbplyr_2.0.0 modelr_0.1.8
[17] readxl_1.3.1 lifecycle_0.2.0 munsell_0.5.0 gtable_0.3.0
[21] cellranger_1.1.0 rvest_0.3.6 evaluate_0.14 knitr_1.30
[25] ps_1.5.0 httpuv_1.5.4 fansi_0.4.1 broom_0.7.2
[29] Rcpp_1.0.5 promises_1.1.1 backports_1.2.1 scales_1.1.1
[33] formatR_1.7 jsonlite_1.7.2 fs_1.5.0 hms_0.5.3
[37] digest_0.6.27 stringi_1.5.3 rprojroot_2.0.2 grid_4.0.2
[41] here_1.0.1 cli_2.2.0 tools_4.0.2 crayon_1.3.4
[45] whisker_0.4 pkgconfig_2.0.3 ellipsis_0.3.1 xml2_1.3.2
[49] reprex_0.3.0 lubridate_1.7.9.2 rstudioapi_0.13 assertthat_0.2.1
[53] rmarkdown_2.6 httr_1.4.2 R6_2.5.0 git2r_0.27.1
[57] compiler_4.0.2