10.20387/BONARES-0F52-S3AN
Lukas Beule
Lukas
Beule
University of Goettingen, Molecular Phytopathology and Mycotoxin Research
Marife Corre
Marife
Corre
University of Göttingen
Marcus Schmidt
Marcus
Schmidt
University of Göttingen
Leonie Göbel
Leonie
Göbel
University of Göttingen
Edzo Veldkamp
Edzo
Veldkamp
University of Göttingen
BonaRes SIGNAL: soil-N-cycling genes at Dornburg and Mariensee 2017
Leibniz Centre for Agricultural Landscape Research (ZALF)
2021
Table
Soil
Soil biology
opendata
soil-N-cycling genes
Boden
Soil
Boden
inspireidentifiziert
opendata
2019-05-21
2019-05-21
2019-05-21
en
signal.ID_7044_2019_05_21_BEULE_LUKAS_N_GENE_SOIL_CHARACTERISTICS
0ca456d9-707b-46a9-9c3d-1607853a525f
CSV (version=)
1.0
CC BY
This data obtained from a paired cropland agroforestry and monoculture system near Dornburg, Germany and a paired grassland agroforestry and open grassland system near Mariensee, Germany in 2017. In each replicate plot of the agroforestry systems, soil samples were taken in the tree row as well as within the crop/grass row at distances of 1 m, 4 m, 7 m from the tree row. In the monoculture/open grassland systems, soil samples were taken in each replicate plot. N-cycling genes and soil properties were analysed as described in the methods. The study aimed to investigate i) whether agroforestry systems affect the abundance of soil-N-cycling genes and ii) if soil properties could explain the observed patterns of soil-N-cycling genes.
5.81
15.77
47.26
54.76
Federal Ministry of Education and Research (BMBF)
https://doi.org/10.13039/501100002347
031A562A
SIGNAL: Sustainable intensification of agriculture through agroforestry.
Federal Ministry of Education and Research (BMBF)
https://doi.org/10.13039/501100002347
031B0510A
SIGNAL: Sustainable intensification of agriculture through agroforestry.