Turnover and distribution of root exudates of Zea mays

Decomposition and distribution of root exudates of Zea mays L. were studied by means of (CO2)-C-14 pulse labeling of shoots on a loamy Haplic Luvisol. Plants were grown in two-compartment pots, where the lower part was separated from the roots by monofilament gauze. Root hairs, but not roots, penetrated through the gauze into the lower part of the soil. The root-free soil in the lower compartment was either sterilized with cycloheximide and streptomycin or remained non-sterile. In order to investigate exudate distribution, 3 days after the C-14 labeling, the lower soil part was frozen and sliced into 15, one-mm thick layers using a microtome. Cumulative (CO2)-C-14 efflux from the soil during the first 3 days after C-14 pulse labeling did not change during plant growth and amounted to about 13 - 20% of the total recovered C-14 ( 41 - 55% of the carbon translocated below ground). Nighttime rate of total CO2 efflux was 1.5 times lower than during daytime because of tight coupling of exudation with photosynthesis intensity. The average CO2 efflux from the soil with Zea mays was about 74 mug C g(-1) day(-1) (22 g C m(-2) day(-1)), although, the contribution of plant roots to the total CO2 efflux from the soil was about 78%, and only 22% was respired from the soil organic matter. Zea mays transferred about 4 g m(-2) of carbon under ground during 26 days of growth. Three zones of exudate concentrations were identified from the distribution of the C-14-activity in rhizosphere profiles after two labeling periods: ( 1) 1 - 2 ( 3) mm ( maximal concentration of exudates) 2) 3 - 5 mm ( presence of exudates is caused by their diffusion from the zone 1); ( 3) 6 - 10 mm ( very insignificant amounts of exudates diffused from the previous zones). At the distance further than 10 mm no exudates were found. The calculated coefficient of exudate diffusion in the soil was 1.9 x 10(-7) cm(2) s(-1).