Double uniformly 13C/15N-labelled [>97 atom% 13C; >98 atom% 15N]

C+NRedBeet
13C + 15N Beet / Red Beet

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-60201Beta vulgaris rubraleaf/stem-8102730
DU-60218beet-19806920
DU-60202root-8102730
C/NChicory
13C + 15N Chicory

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-60301Cichorium intybusleaf/stem-8102730
DU-60322taproot-25809010
DU-60302root-8102730
C+NMaize
13C + 15N Maize / Corn

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-60501Zea maysleaf/stem-8102730
DU-60502root-8102730
C NPerennialryegrass
13C + 15N Perennial ryegrass

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-61701Lolium perenneleaf/stem-8102730
DU-61719stubble-8102730
DU-61702root-8102730
C/NPotato
13C + 15N Potato

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-60001Solanum tuberosumleaf/stem-8102730
DU-60007flower1470--
DU-60005tuber-19806920
DU-60002root-8102730
C/NWheatC N Wheat
13C + 15N Wheat

Reference(s)

Guhr et al. 2016. Effect of water redistribution by two distinct saprotrophic fungi on carbon mineralization and nitrogen translocation in dry soil. Soil Biology and Biochemistry 103: 380–387.

Verbruggen et al. 2016. Do arbuscular mycorrhizal fungi stabilize litter-derived carbon in soil? Journal of Ecology 104: 261-269.

Luz Cayuela et al. 2013. Tracking C and N dynamics and stabilization in soil amended with wheat residue and its corresponding bioethanol by-product: a 13C/15N study. Global Change Biology Bioenergy 2: 201-213.

Hunter et al. 2013. Sediment community responses to marine vs. terrigenous organic matter in a submarine canyon. Biogeosciences 10: 67–80.

Price (Euro) excl. VAT (dry weight basis)

Cat nr.SpeciesOrgan0.1 g1.0 g5.0 g
DU-60401Triticum aestivumleaf/stem-8102730
DU-60416straw-12104360
DU-60406seed56027309540
DU-60402root-8102730