Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant and Soil, 2016 - Springer
Abstract Background and Aims Input of organic matter into soil creates microbial hotspots.
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Carbon input and partitioning in subsoil by chicory and alfalfa.
S Hafner, Y Kuzyakov - 2016 - cabidigitallibrary.org
Abstract Background and Aims: Input of organic matter into soil creates microbial hotspots.
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - 2016 - publications.goettingen-research …
Input of organic matter into soil creates microbial hotspots. Due to the low organic matter
content in subsoil, microbial hotspots can improve nutrient availability to plants. Therefore …
content in subsoil, microbial hotspots can improve nutrient availability to plants. Therefore …
Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant and Soil, 2016 - JSTOR
Background and Aims Input of organic matter into soil creates microbial hotspots. Due to the
low organic matter content in subsoil, microbial hotspots can improve nutrient availability to …
low organic matter content in subsoil, microbial hotspots can improve nutrient availability to …
Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant and Soil, 2016 - infona.pl
Background and Aims Input of organic matter into soil creates microbial hotspots. Due to the
low organic matter content in subsoil, microbial hotspots can improve nutrient availability to …
low organic matter content in subsoil, microbial hotspots can improve nutrient availability to …
[PDF][PDF] Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant Soil, 2016 - wwwuser.gwdguser.de
Abstract Background and Aims Input of organic matter into soil creates microbial hotspots.
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Carbon input and partitioning in subsoil by chicory and alfalfa.
S Hafner, Y Kuzyakov - Plant & Soil, 2016 - search.ebscohost.com
Abstract Background and Aims: Input of organic matter into soil creates microbial hotspots.
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant and Soil, 2016 - search.proquest.com
Methods Three replicate plots of alfalfa and chicory grown on a Haplic Luvisol were 13CO2
pulse labeled after 110 days of growth. 13C was traced in plant biomass, rhizosphere, bulk …
pulse labeled after 110 days of growth. 13C was traced in plant biomass, rhizosphere, bulk …
[PDF][PDF] Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant Soil, 2016 - wwwuser.gwdg.de
Abstract Background and Aims Input of organic matter into soil creates microbial hotspots.
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
Due to the low organic matter content in subsoil, microbial hotspots can improve nutrient …
[引用][C] Carbon input and partitioning in subsoil by chicory and alfalfa
S Hafner, Y Kuzyakov - Plant and Soil, 2016 - elibrary.ru