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@INPROCEEDINGS{Gbel:863384,
author = {Göbel, Leonie and Heinlein, Florian and Schmidt, Marcus
and Veldkamp, Edzo and Corre, Marife},
title = {{N}utrient leaching losses and nutrient retention
efficiencies in temperate agroforestry systems versus
conventional agricultural systems},
reportid = {FZJ-2019-03457},
year = {2018},
abstract = {Intensively managed agriculture is often accompanied by
detrimental environmental effects such as nutrient leaching
losses to the groundwater and greenhouse gas emissions to
the atmosphere. This results in a strong need for more
environmentally friendly agricultural management systems.
Alley-cropping agroforestry systems are an example for
innovative management systems that have come to increasing
attention in Europe. In these systems, fast growing tree
species for bioenergy use are implemented in alternating
strips with cropland or grassland, and thus agroforestry
systems take advantage of beneficial ecological functions
of both of their components, tree and
crop/grass.Insuchsystems,treescanactasasafety-netagainstnutrientleachingastheycantakeupnutrientsthat
are beyond the reach of shallow grass/crop roots or at times
when grass/crop demand is low. However, at present no
comparisons of nutrient leaching losses and nutrient
retention efficiency have yet been conducted between
conventional and agroforestry systems.Our study aimed to 1)
quantify nutrient leaching losses in conventional and
agroforestry systems of either grassland or cropland, 2)
evaluate the nutrient retention efficiency in the soil
under these management systems, and 3) assess whether
differences in nutrient retention efficiencies between
conventional and agroforestry systems are related to
differences in nutrient-cycling processes in the soil and/or
to differences in plant uptake of nutrients. We hypothesized
that conventional systems will have higher nutrient leaching
and lower nutrient retention efficiencies than agroforestry
systems.This study was conducted at six paired sites of
conventional and agroforestry systems (with alley cropping
of fast growing trees) of grasslands or croplands, located
in central Germany. Measurements in the agroforestry systems
were taken within tree strips and at various distances to
the tree strips within the grass or crop strips. Soil
watersampleswerecollectedmonthlyin2016and2017usingsuctioncuplysimeters.Thesampleswereanalyzed
for nitrogen, phosphorus and base cation concentrations. To
calculate leaching losses, water drainage flux was
estimated using a novel agroforestry module of the model
system Expert-N. Nutrient retention efficiency (NRE) was
calculated as: 1- (leaching losses/soil-available
nutrient).At a cropland site, first results showed that
nitrate concentrations in soil water were lower within the
tree strips of the agroforestry system compared to the
conventional system. Nitrate and ammonium concentrations in
soil water did not differ between agroforestry and
conventional systems at one grassland site, but were higher
in the conventional than in the agroforestry system at
another grassland site.This study will provide important
information on whether temperate agroforestry systems can be
a sustainable alternative to conventional agriculture by
reducing nutrient leaching losses to the groundwater and by
optimizing nutrient retention in the soil.},
organization = {European Geoscience Union, Vienna
(Austria)},
typ = {PUB:(DE-HGF)6},
url = {https://juser.fz-juelich.de/record/863384},
}
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