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@ARTICLE{Brahim:906836,
author = {Brahim, Nadhem and Ibrahim, Hatem and Mlih, Rawan and
Bouajila, Abdelhakim and Karbout, Nissaf and Bol, Roland},
title = {{S}oil {OC} and {N} {S}tocks in the {S}aline {S}oil of
{T}unisian {G}ataaya {O}asis {E}ight {Y}ears after
{A}pplication of {M}anure and {C}ompost},
journal = {Land},
volume = {11},
number = {3},
issn = {2073-445X},
address = {Basel},
publisher = {MDPI},
reportid = {FZJ-2022-01730},
pages = {442 -},
year = {2022},
abstract = {Soil organic matter plays an important role in improving
soil properties, crop productivity and is a key constituent
and driver of the global carbon cycle. Nevertheless,
relatively limited quantitative information is available on
the organic carbon (OC) stocks and the actual potentials for
OC and total nitrogen (N) sequestration under arid cropping
systems. In this study, we evaluated the immediate and
long-term (after eight years) effects of compost or manure
additions, at a rate of 100 t ha−1, on the soil OC and N
stocks in the Gataaya oasis in Southern Tunisia. The oasis
had been abandoned and no additions had taken place in the
10 years prior to experiment. Soil samples were taken
systematically every 10 cm up to a depth of 50 cm. After
adding compost (CMP) and manure (MAN) in 2013, the bulk
density (BD) decreased in the surface layers, especially at
the 0–10 cm soil layer where it declined from 1.53 g
cm−3 to 1.38 g cm−3 under compost and 1.41 g cm−3
under manure. Soil OC and N stocks, however, increased after
adding compost and manure. Manure contributed more to OC
stock increase than compost, with +337 and $+241\%,$
respectively. Correspondingly, the N stock increased by + 47
and $+12\%,$ respectively, due to manure and compost. After
four years, compared to 2013 stocks, the decrease in OC
stock was almost identical with −43 (CMP) and $−41\%$
(MAN). However, N stock seemed more stable under compost
compared to manure, with −2 and $−19\%,$ respectively.
After eight years, the N stock remained higher in the
deepest layer 30–50 cm compared to other layers. This
suggested that high gypsum application can inhibit N
mineralization. The initial enhanced OC stock after the
organic amendment, both for compost and for manure, was very
quickly lost and after eight years had virtually returned to
the initial OC state by the end of the eight years.
Therefore, these oasis ecosystems require a near annual
supply of exogenous organic material to maintain OC at an
enhanced level. After eight years, manure amendment was
found to be better than compost for increasing soil OC (3.16
against 1.86 t/ha, respectively) and for increasing N (0.35
against 0.18 t/ha, respectively). However, the cost and
availability make the amendment with compost more
interesting in oasis (400 Tunisian dinars/t for compost
against 1016 Tunisian dinars/t for manure).},
cin = {IBG-3},
ddc = {630},
cid = {I:(DE-Juel1)IBG-3-20101118},
pnm = {2173 - Agro-biogeosystems: controls, feedbacks and impact
(POF4-217)},
pid = {G:(DE-HGF)POF4-2173},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000775149300001},
doi = {10.3390/land11030442},
url = {https://juser.fz-juelich.de/record/906836},
}
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