-
(Table 1) Details of Porites specimens analyzed for bio-smoothing
Porites species identified by C. Veron, Australian Institute of Marine Science, Townsville, Australia. Orpheus and Nusa Barung coral specimens from Gagan et al. [1998,... -
(Table S2) Weighted mean isotopic composition of C29-C33 n-alkanes from soils...
This dataset has no description
-
(Table 2) Change in biomass of plants in three herbivore treatments in forest...
This dataset has no description
-
(Table 1) Biomass of plants and height of Betula nana in forest and tundra si...
This dataset has no description
-
(Table S2) Egg and pellet production during feeding experiments with Calanus ...
Average egg (EP) and fecal pellet (FP) production during the 3 bloom phases for all temperatures and food treatments after the lag phase until end of experiment. -
(Table S1) Fecal pellet volume and carbon content during feeding experiments ...
This dataset has no description
-
(Table 7) Length, dry weight and lipid content during feeding experiments wit...
This dataset has no description
-
(Table 4) In situ conditions and egg and pellet production traits of Calanus ...
This dataset has no description
-
(Table 7) C, N and lipid content, and pellet and egg production of female Cal...
Initial (in situ) values represent values on Day 0. -
(Table 6) Lipid content of female Calanus hyperboreus in situ and at the end ...
Initial (in situ) values represent values on Day 0 (n = 15). Experimental end values are means across 5 experiments at temperatures from 0 to 10°C (n = 22 to 33). -
(Table 4) Sinking velocities of total particulate organic carbon and its frac...
Sinking velocities of total POC and its fractions (PPC, FPC, and amorphous detritus) at 20, 50, and 100 m depths during 3 sampling phases. POC and, subsequently, amorphous... -
(Table 3) Concentrations and ratios of POC and PON from water column and sedi...
Concentrations and ratios of particulate organic material from water column and sediment traps at 20, 50, and 100 m depths during 3 sampling phases. Sedimented POC and... -
(Table 2) Phytoplankton and copepod biomass and specific ingestion rates and ...
Integrated phytoplankton and copepod biomass in the upper 50 m and specific ingestion rates and corresponding grazing impact (% of phytoplankton biomass/day) estimated by 4... -
(Table 2) Correlation matrix obtained between the factors from the present da...
*: Values correspond to significant correlations at p < 0.05. -
(Table 5) Diatom biostratigraphy of ODP Hole 167-1011B sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and B = barren, - = not found. -
(Table 13) Diatom biostratigraphy of ODP Site 167-1022 sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and B = barren, - = not found. -
(Table 12) Diatom biostratigraphy of ODP Hole 167-1021B sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and B = barren, - = not found. -
(Table 11) Diatom biostratigraphy of ODP Hole 167-1020C sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and - = not found. -
(Table 10) Diatom biostratigraphy of ODP Hole 167-1020B sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and B = barren, - = not found. -
(Table 9) Diatom biostratigraphy of ODP Hole 167-1019C sediments
DEPTH, sediment is given in mbsf. Abundance estimates as follows: A = abundant, C = common, F = few, R = rare, T = trace, and B = barren, - = not found.