TY - JOUR
T1 - Benzoxazinoids in Rye Allelopathy - From Discovery to Application in Sustainable Weed Control and Organic Farming
AU - Schulz, Margot
AU - Marocco, Adriano
AU - Tabaglio, Vincenzo
AU - Macias, Francisco A.
AU - Molinillo, Jose M.G.
PY - 2013
Y1 - 2013
N2 - The allelopathic potency of rye (Secale cereale L.)
is due mainly to the presence of phytotoxic benzoxazinones—
compounds whose biosynthesis is developmentally regulated,
with the highest accumulation in young tissue and a dependency
on cultivar and environmental influences. Benzoxazinones
can be released from residues of greenhouse-grown rye
at levels between 12 and 20 kg/ha, with lower amounts
exuded by living plants. In soil, benzoxazinones are subject
to a cascade of transformation reactions, and levels in the
range 0.5–5 kg/ha have been reported. Starting with the accumulation
of less toxic benzoxazolinones, the transformation
reactions in soil primarily lead to the production of phenoxazinones,
acetamides, and malonamic acids. These reactions
are associated with microbial activity in the soil. In addition to
benzoxazinones, benzoxazolin-2(3H)-one (BOA) has been
investigated for phytotoxic effects in weeds and crops. Exposure
to BOA affects transcriptome, proteome, and metabolome
patterns of the seedlings, inhibits germination and
growth, and can induce death of sensitive species. Differences
in the sensitivity of cultivars and ecotypes are due to different
species-dependent strategies that have evolved to cope with BOA. These strategies include the rapid activation of detoxification
reactions and extrusion of detoxified compounds. In
contrast to sensitive ecotypes, tolerant ecotypes are less affected
by exposure to BOA. Like the original compounds
BOA and MBOA, all exuded detoxification products are
converted to phenoxazinones, which can be degraded by
several specialized fungi via the Fenton reaction. Because of
their selectivity, specific activity, and presumably limited persistence
in the soil, benzoxazinoids or rye residues are suitable
means for weed control. In fact, rye is one of the best cool
season cover crops and widely used because of its excellent
weed suppressive potential. Breeding of benzoxazinoid resistant
crops and of rye with high benzoxazinoid contents, as
well as a better understanding of the soil persistence of phenoxazinones,
of the weed resistance against benzoxazinoids,
and of how allelopathic interactions are influenced by cultural
practices, would provide the means to include allelopathic rye
varieties in organic cropping systems for weed control.
AB - The allelopathic potency of rye (Secale cereale L.)
is due mainly to the presence of phytotoxic benzoxazinones—
compounds whose biosynthesis is developmentally regulated,
with the highest accumulation in young tissue and a dependency
on cultivar and environmental influences. Benzoxazinones
can be released from residues of greenhouse-grown rye
at levels between 12 and 20 kg/ha, with lower amounts
exuded by living plants. In soil, benzoxazinones are subject
to a cascade of transformation reactions, and levels in the
range 0.5–5 kg/ha have been reported. Starting with the accumulation
of less toxic benzoxazolinones, the transformation
reactions in soil primarily lead to the production of phenoxazinones,
acetamides, and malonamic acids. These reactions
are associated with microbial activity in the soil. In addition to
benzoxazinones, benzoxazolin-2(3H)-one (BOA) has been
investigated for phytotoxic effects in weeds and crops. Exposure
to BOA affects transcriptome, proteome, and metabolome
patterns of the seedlings, inhibits germination and
growth, and can induce death of sensitive species. Differences
in the sensitivity of cultivars and ecotypes are due to different
species-dependent strategies that have evolved to cope with BOA. These strategies include the rapid activation of detoxification
reactions and extrusion of detoxified compounds. In
contrast to sensitive ecotypes, tolerant ecotypes are less affected
by exposure to BOA. Like the original compounds
BOA and MBOA, all exuded detoxification products are
converted to phenoxazinones, which can be degraded by
several specialized fungi via the Fenton reaction. Because of
their selectivity, specific activity, and presumably limited persistence
in the soil, benzoxazinoids or rye residues are suitable
means for weed control. In fact, rye is one of the best cool
season cover crops and widely used because of its excellent
weed suppressive potential. Breeding of benzoxazinoid resistant
crops and of rye with high benzoxazinoid contents, as
well as a better understanding of the soil persistence of phenoxazinones,
of the weed resistance against benzoxazinoids,
and of how allelopathic interactions are influenced by cultural
practices, would provide the means to include allelopathic rye
varieties in organic cropping systems for weed control.
KW - Benzoxazinoids
KW - Biodegradable allelochemicals
KW - Detoxification
KW - Organic farming
KW - Phenoxazinones
KW - Rye
KW - Secale cereale L.
KW - Soil persistence
KW - Sustainable weed control
KW - allelopathy
KW - Benzoxazinoids
KW - Biodegradable allelochemicals
KW - Detoxification
KW - Organic farming
KW - Phenoxazinones
KW - Rye
KW - Secale cereale L.
KW - Soil persistence
KW - Sustainable weed control
KW - allelopathy
UR - http://hdl.handle.net/10807/42785
U2 - 10.1007/s10886-013-0235-x
DO - 10.1007/s10886-013-0235-x
M3 - Article
SN - 0098-0331
VL - 39
SP - 154
EP - 174
JO - Journal of Chemical Ecology
JF - Journal of Chemical Ecology
ER -