Winter cover crops and fertiliser effects on the weed seed bank in a low-input maize-based conservation agriculture system

Abstract: The objective of this work was to evaluate the density and composition of the soil weed seed bank when bean, corn, and soybean are cultivated in the no-tillage system (NTS) in rotation with winter cover crop species and in the conventional tillage system (CTS). The experiment was installed in a complete randomized block design with three replicates. The evaluation of the seed bank was performed on soil samples (0-10 and 10-20 cm) in four points of each experimental unit, at 15, 30, 60, and 90 days of cultivation. Bean, corn, and soybean crops were sown in the NTS with different soil cover crops in rotation, as well as in the CTS. The NTS provided a more dense and abundant soil seed bank of the species Gnaphalium spicatum and Oxalis corniculata when corn, soybean, and bean were cultivated. The species Lolium multiflorum showed lower density and less seeds in the soil seed bank when the NTS was adopted. The use of the winter cover crops black oat and cow vetch, cultivated individually or in consortium, resulted in a lower density of weed species, especially of L. multiflorum. The NTS provides a lower density of weed species in the soil seed bank than the CTS.

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Influence of Nitrogen Fertilization of Cabbage Grown in Mulches of Winter Cover Crops on Reducing the Population of the Cabbage Aphid (Brevicoryne brassicae L.)

Vegetable Crops Research Bulletin ◽

10.2478/v10032-011-0007-5 ◽

2011 ◽

Vol 74 (1) ◽

Author(s):

Stanisław Kotliński

Keyword(s):

Cover Crops ◽

Nitrogen Fertilization ◽

Brevicoryne Brassicae ◽

Cabbage Aphid ◽

Winter Cover ◽

Winter Cover Crops

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Effects of winter cover crops on physiological and biochemical properties and growth of double cropping rice in South China

CHINESE JOURNAL OF ECO-AGRICULTURE ◽

10.3724/sp.j.1011.2010.01176 ◽

2010 ◽

Vol 18 (6) ◽

pp. 1176-1182

Author(s):

Hai-Ming TANG ◽

Wen-Guang TANG ◽

Xiao-Ping XIAO ◽

Zun-Chang LUO ◽

Guang-Li YANG ◽

...

Keyword(s):

South China ◽

Cover Crops ◽

Biochemical Properties ◽

Double Cropping ◽

Winter Cover ◽

Winter Cover Crops ◽

Physiological And Biochemical ◽

Physiological And Biochemical Properties

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Effects of Cover Crops and Tillage on Sweet Corn Production

HortScience ◽

10.21273/hortsci.33.3.476d ◽

1998 ◽

Vol 33 (3) ◽

pp. 476d-476

Author(s):

Gary R. Cline ◽

Anthony F. Silvernail

Keyword(s):

Cover Crops ◽

Sweet Corn ◽

N Fertilization ◽

Winter Rye ◽

No Tillage ◽

Corn Production ◽

Total N ◽

No Till ◽

Winter Cover ◽

Winter Cover Crops

A split-plot factorial experiment examined effects of tillage and winter cover crops on sweet corn in 1997. Main plots received tillage or no tillage. Cover crops consisted of hairy vetch, winter rye, or a mix, and N treatments consisted of plus or minus N fertilization. Following watermelon not receiving inorganic N, vetch, and mix cover cropsproduced total N yields of ≈90 kg/ha that were more than four times greater than those obtained with rye. However, vetch dry weight yields (2.7 mg/ha) were only about 60% of those obtained in previous years due to winter kill. Following rye winter cover crops, addition of ammonium nitrate to corn greatly increased (P < 0.05) corn yields and foliar N concentrations compared to treatments not receiving N. Following vetch, corn yields obtained in tilled treatments without N fertilization equaled those obtained with N fertilization. However, yields obtained from unfertilized no-till treatments were significantly (P < 0.05) lower than yields of N-fertilized treatments. Available soil N was significantly (P < 0.05) greater following vetch compared to rye after corn planting. No significant effects of tillage on sweet corn plant densities or yields were detected. It was concluded that no-tillage sweet corn was successful, and N fixed by vetch was able to sustain sweet corn production in tilled treatments but not in no-till treatments.In previous years normal, higher-yielding vetch cover crops were able to sustain sweet corn in both tilled and no-till treatments.

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Response of Winter Cover Crops to Soil Compaction

Soil Science Society of America Journal ◽

10.2136/sssaj1958.03615995002200020025x ◽

1958 ◽

Vol 22 (2) ◽

pp. 181-184 ◽

Cited By ~ 3

Author(s):

W. J. Flocker ◽

J. A. Vomocil ◽

M. T. Vittum

Keyword(s):

Cover Crops ◽

Soil Compaction ◽

Winter Cover ◽

Winter Cover Crops

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A 3-year field study to assess winter cover crops as nitrogen sources for an organic maize crop in Mediterranean Portugal

European Journal of Agronomy ◽

10.1016/j.eja.2021.126302 ◽

2021 ◽

Vol 128 ◽

pp. 126302

Author(s):

Adelaide Perdigão ◽

José L.S. Pereira ◽

Nuno Moreira ◽

Henrique Trindade ◽

João Coutinho

Keyword(s):

Field Study ◽

Cover Crops ◽

Nitrogen Sources ◽

Maize Crop ◽

Winter Cover ◽

Winter Cover Crops

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Assessing the Impacts of Future Climate Conditions on the Effectiveness of Winter Cover Crops in Reducing Nitrate Loads into the Chesapeake Bay Watersheds Using the SWAT Model

Transactions of the ASABE ◽

10.13031/trans.12390 ◽

2017 ◽

Vol 60 (6) ◽

pp. 1939-1955 ◽

Cited By ~ 3

Author(s):

Sangchul Lee ◽

Ali M. Sadeghi ◽

In-Young Yeo ◽

Gregory W. McCarty ◽

W. Dean Hively

Keyword(s):

Coastal Plain ◽

Cover Crops ◽

Nitrate Reduction ◽

Future Climate ◽

Baseline Scenario ◽

Climate Conditions ◽

Reduction Efficiency ◽

Simulation Results ◽

Winter Cover ◽

Winter Cover Crops

Abstract. Winter cover crops (WCCs) have been widely implemented in the Coastal Plain of the Chesapeake Bay Watershed (CBW) due to their high effectiveness in reducing nitrate loads. However, future climate conditions (FCCs) are expected to exacerbate water quality degradation in the CBW by increasing nitrate loads from agriculture. Accordingly, the question remains whether WCCs are sufficient to mitigate increased nutrient loads caused by FCCs. In this study, we assessed the impacts of FCCs on WCC nitrate reduction efficiency in the Coastal Plain of the CBW using the Soil and Water Assessment Tool (SWAT). Three FCC scenarios (2085-2098) were prepared using general circulation models (GCMs), considering three Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) greenhouse gas emission scenarios. We also developed six representative WCC implementation scenarios based on the most commonly used planting dates and species of WCCs in this region. Simulation results showed that WCC biomass increased by ~58% under FCC scenarios due to climate conditions conducive to WCC growth. Prior to implementing WCCs, annual nitrate loads increased by ~43% under FCC scenarios compared to the baseline scenario (2001-2014). When WCCs were planted, annual nitrate loads were substantially reduced by ~48%, and WCC nitrate reduction efficiency was ~5% higher under FCC scenarios relative to the baseline scenario. The increase in WCC nitrate reduction efficiency varied with FCC scenario and WCC planting method. As CO2 concentrations were higher and winters were warmer under FCC scenarios, WCCs had greater biomass and thus demonstrated higher nitrate reduction efficiency. In response to FCC scenarios, the performance of less effective WCC practices (i.e., barley, wheat, and late planting) under the baseline scenario indicated a ~14% higher increase in nitrate reduction efficiency compared to WCC practices with greater effectiveness under the baseline scenario (i.e., rye and early planting) due to warmer temperatures. The SWAT simulation results indicated that WCCs were effective in mitigating nitrate loads accelerated by FCCs, suggesting the role of WCCs in mitigating nitrate loads will likely be even more important under FCCs. Keywords: Future climate conditions (FCCs), SWAT, Water quality, Winter cover crops (WCCs).

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