File(s) | Type | Description | Action |
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marbio_2019a_fig2b.csv (6.09 KB) | Comma Separated Values (.csv) | Primary data file for dataset ID 793571 | |
Edmunds_MarBio_2019a_Data.xlsx (562.11 KB) | Microsoft Excel | Excel file containing data published as figures in Edmunds et al. 2019 (doi: 10.1007/s00227-018-3459-z) FIG. 1 A = Date in 2016 and 2017 B = Daily rainfall (cm) recorded in each year' ND = no data - displayed in Panel A C = surface PA integrated over each day as mol quanta/m2/d - displayed in Panel B D = underwater maximum PAR recorded on each day at 19. 1 m depth as mmol quanta/m2/s - displayed in Panel C E = daily PAR integrated at depth mol quanta/m2/d FIG 2 A = Date B = time underwater h:m:s C = underwater light as µmol quanta/m2/s D = time on surface month/day/year h:m E = surface light as µmol quanta/m2/s F = % transmission of light to depth **note two values per day** H = time month/day/year h:m I = surface PAR as µmol quanta/m2/s J = underwater PAR as µmol quanta/m2/s K = Kd calculated from I and J as per text L = mean transmission to depth Energy Budget Energy budget calculated as per text requires estimate of mas light at 10 m depth as described in text A = day B = surface light µmol quanta/m2/s C = kd D = underwater light as µmol quanta/m2/s at 19.1 m E = underwater light as µmol quanta/m2/s at 10 m | |
Edmunds_MarBio_2019a_Data.xlsx (596.65 KB) | Microsoft Excel |
Files
Type: Comma Separated Values (.csv)
Description: Primary data file for dataset ID 793571
Type: Microsoft Excel
Description: Excel file containing data published as figures in Edmunds et al. 2019 (doi: 10.1007/s00227-018-3459-z) FIG. 1 A = Date in 2016 and 2017 B = Daily rainfall (cm) recorded in each year' ND = no data - displayed in Panel A C = surface PA integrated over each day as mol quanta/m2/d - displayed in Panel B D = underwater maximum PAR recorded on each day at 19. 1 m depth as mmol quanta/m2/s - displayed in Panel C E = daily PAR integrated at depth mol quanta/m2/d FIG 2 A = Date B = time underwater h:m:s C = underwater light as µmol quanta/m2/s D = time on surface month/day/year h:m E = surface light as µmol quanta/m2/s F = % transmission of light to depth **note two values per day** H = time month/day/year h:m I = surface PAR as µmol quanta/m2/s J = underwater PAR as µmol quanta/m2/s K = Kd calculated from I and J as per text L = mean transmission to depth Energy Budget Energy budget calculated as per text requires estimate of mas light at 10 m depth as described in text A = day B = surface light µmol quanta/m2/s C = kd D = underwater light as µmol quanta/m2/s at 19.1 m E = underwater light as µmol quanta/m2/s at 10 m