A preview of perennial grain agriculture: knowledge gain from biotic interactions in natural and agricultural ecosystems

Rasche, Frank; Blagodatskaya, Еvgenia; Emmerling, Christoph; Belz, Regina G.; Musyoki, Mary K.; Zimmermann, Judith; Martin, Konrad

doi:10.1002/ecs2.2048

Cited by 20 publications

(9 citation statements)

References 188 publications

(354 reference statements)

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“…Fungi F. verticillioides and F. graminearum can persist in the soil and plant residues for up to three years, for example, slowly decomposing parts of a corn plant can be the reserves of infection for many years. [21,25]. Viable conidia are easily brown by wind, water droplets, infection from plant residues plays a much greater role in the development of the disease than inoculum, introduced by different ways of transmission of infection.…”

Section: Discussionmentioning

confidence: 99%

Analysis of infection with fungi of the genus Fusarium seed and vegetative organs of crops

et al. 2021

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Studying the specific and intraspecific structure of populations of causative agents of Fusarium ear of grain crops. The results of experimental studies of samples of grain crops affected by microscopic fungi p.Fusarium. The analysis of the infection of grains, stems and roots of various types of cereals with mitospores fungi was carried out. The variability of pathogenic properties of Fusarium fungi depending on the part of the ear is shown. The results of the research are important for the targeted diagnosis of fusarium of grain crops and plants of the ear.

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Section: Discussionmentioning

confidence: 99%

Analysis of infection with fungi of the genus Fusarium seed and vegetative organs of crops

et al. 2021

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“…Mycorrhizal fungi are a noteworthy category of soil organisms that are clearly affected by ecosystem conversion to agriculture [50]. Mycorrhizae form symbiotic relationships with most species of plants, and are often important, if not essential, for increasing nutrient availability, suppressing plant diseases, and building SOM [35].…”

Section: How Soil Organisms Respond To Disturbancementioning

confidence: 99%

Is the future of agriculture perennial? Imperatives and opportunities to reinvent agriculture by shifting from annual monocultures to perennial polycultures

2018

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Non-technical summaryModern agriculture is associated with numerous environmental predicaments, such as land degradation, water pollution, and greenhouse gas emission. Socio-economically, it is characterized by a treadmill of technological change, increased mechanization, and economic consolidation, while depressing economic returns to farmers. A root cause is the dominance of annual plants cultivated in monocultures. Annual crops require the yearly clearing of vegetation resulting in soil erosion and other forms of ecosystem degradation. Monocultures are susceptible to agricultural pests and weeds. By contrast, perennial polycultures informed by natural ecosystems, promise more sustainable agroecosystems with the potential to also revitalize the economic foundation of farming and hence rural societies.

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“…Compared to annual grains, the larger and more persistent root system of perennial grains can have a positive impact on soil health with positive effect on soil porosity, aggregate stability, water infiltration, nutrient cycles and microbial activity (Crews et al, 2016;Crews and Brookes, 2014;Culman et al, 2010;DuPont et al, 2014;Rasche et al, 2017). Water quality can also be improved by transitioning from annual to perennial grain production in sensitive watershed areas.…”

Section: Promoting Soil Health Fertility and Water Qualitymentioning

confidence: 99%

“…However, the periodic use of a perennial phase in the crop rotation will likely improve soil carbon in the long term (Franzluebbers et al, 2014;King and Blesh, 2018), suggesting larger soil carbon gains than carbon losses to the atmosphere during the conversion back to annuals (Grandy and Robertson, 2007). Finally, the assumed increase of root exudation should enable beneficial processes related to soil-plant interactions (e.g., microbial biofertilization or phytostimulation, in Rasche et al, 2017). Within a short time frame (over one or two years), microbial changes are likely to be some of the most visible changes in soil due to perennial roots.…”

Section: Enhancing Services Via the Duration Of The Perennial Phase Imentioning

confidence: 99%

Integrating multipurpose perennial grains crops in Western European farming systems

Duchêne

Celette

Ryan

et al. 2019

Agriculture, Ecosystems & Environment

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Western European agriculture is largely defined by the high level of productivity of its cereal grain production. Such productivity is largely a result of farm specialization and intensification. This approach however has led to environmental problems and farm sensitivity to climatic and economic hazards. Recently, perennial grains have been promoted as a potential alternative, particularly with intermediate wheatgrass (Thinopyrum intermedium). Perennial grains bring new perspectives and innovation, and can contribute to both system diversification and environmental performance. Above all, the value of yearround ground cover and root activity, as well as the ability to harvest both grain and forage production, offers a large range of interest and potential application for such a grain crop. Realization of the potential benefits from perennial grains depends on the development of suitable seed material and the identification of tangible economic and environmental benefits coming from the integration of perennial grains into crop rotations. Although more work is needed, perennial grains are compatible with the current European interests and policies for food security, soil health, water quality, and farmer interest in innovative practices and sustainable cropping systems.

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A preview of perennial grain agriculture: knowledge gain from biotic interactions in natural and agricultural ecosystems

Cited by 20 publications

References 188 publications

Analysis of infection with fungi of the genus Fusarium seed and vegetative organs of crops

Analysis of infection with fungi of the genus Fusarium seed and vegetative organs of crops

Is the future of agriculture perennial? Imperatives and opportunities to reinvent agriculture by shifting from annual monocultures to perennial polycultures

Integrating multipurpose perennial grains crops in Western European farming systems

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