Short-term nitrogen mineralization from warm-season cover crops in organic farming systems

The use of cover crops is widespread practice in organic farming systems. Cover crops can be defined as crops that are usually not grown commercially, and can have a multiple role in crop rotations. The benefit of cover crops has been known since long. Legumes are used as biological fixer of nitrogen for the next crop, and are established during periods when the soil is without major crops in order to reduce erosion. In recent years, the role of cover crops has been extended to the biocontrol of weeds, pests and diseases, as well as to the overall improvement of soil quality by increasing organic matter, encouraging the circulation of nutrients and reducing soil compaction. At the same time, their use tends to reduce costs and even create new sources of income on the farm.

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Transition from Conventional to Organic Farming Systems: I. Challenges, Recommendations, and Guidelines for Pest Management

HortTechnology ◽

10.21273/horttech.12.4.606 ◽

2002 ◽

Vol 12 (4) ◽

pp. 606-610 ◽

Cited By ~ 8

Author(s):

Gladis M. Zinati

Keyword(s):

Pest Management ◽

Organic Farming ◽

Cover Crops ◽

Management Practices ◽

Crop Yields ◽

Transition Period ◽

Geographical Location ◽

Farming Systems ◽

Agricultural Systems ◽

Organic Farming Systems

Conventional agricultural systems increase per-area food production, but deplete natural resources and degrade both crop and environmental quality. Many of these concerns are addressed by sustainable agricultural systems, integrated pest management, biocontrol, and other alternative systems. Environmental and social concerns have escalated the need for alternative agricultural systems in the last decade. One alternative, the organic farming system, substitutes cultural and biological inputs for synthetically made fertilizers and chemicals for crop nutrition and pest management. Practices used for crop and pest management are similar during transition from conventional to organic farming systems, but produce is not certified to be organic during the transition period. During the transition from conventional to organic farming, growers may face pest control difficulties and lower yields when conventional practices are abandoned. The objectives of this paper are to 1) give an overview of the reasons for converting to organic farming and the challenges that growers face during the transition period, 2) outline some potential strategies for crop, soil, and pest management, and 3) list guidelines and recommendations for pest management during the transition to organic farming. Implementation of crop and pest management practices depends on geographical location, climate, available onsite resources, and history of the land. During transition, growers rely on cultural mechanisms and on organic and mineral sources to improve soil fertility, to build a population of natural enemies to suppress pest populations. Pest management practices during the transition period that reduce pest populations to economically manageable levels include crop rotation, cultivation, cover crops, mulches, crop diversification, resistant varieties, and insect traps. These practices also enrich the soil biota and increase crop yields before produce is certified organically grown.

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Soil fertility in organic farming systems - fundamentally different?

Soil Use and Management ◽

10.1111/j.1475-2743.2002.tb00272.x ◽

2006 ◽

Vol 18 ◽

pp. 301-308 ◽

Cited By ~ 10

Author(s):

E.A. Stockdale ◽

M.A. Shepherd ◽

S. Fortune ◽

S.P. Cuttle

Keyword(s):

Soil Fertility ◽

Organic Farming ◽

Farming Systems ◽

Organic Farming Systems

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Influence of crop rotation, intermediate crops, and organic fertilizers on the soil enzymatic activity and humus content in organic farming systems

Eurasian Soil Science ◽

10.1134/s1064229313020105 ◽

2013 ◽

Vol 46 (2) ◽

pp. 198-203 ◽

Cited By ~ 4

Author(s):

A. Marcinkeviciene ◽

V. Boguzas ◽

S. Balnyte ◽

R. Pupaliene ◽

R. Velicka

Keyword(s):

Enzymatic Activity ◽

Organic Farming ◽

Crop Rotation ◽

Humus Content ◽

Farming Systems ◽

Organic Fertilizers ◽

Soil Enzymatic Activity ◽

Organic Farming Systems

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Cocktails of pesticide residues in conventional and organic farming systems in Europe – legacy of the past and turning point for the future

Environmental Pollution ◽

10.1016/j.envpol.2021.116827 ◽

2021 ◽

pp. 116827

Author(s):

Violette Geissen ◽

Vera Silva ◽

Esperanza Huerta Lwanga ◽

Nicolas Beriot ◽

Klaas Oostindie ◽

...

Keyword(s):

Organic Farming ◽

Pesticide Residues ◽

Turning Point ◽

Farming Systems ◽

The Past ◽

The Future ◽

Organic Farming Systems

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Population Dynamics of Earthworms in Organic Farming Systems

Biology of Earthworms - Soil Biology ◽

10.1007/978-3-642-14636-7_18 ◽

2010 ◽

pp. 299-310 ◽

Cited By ~ 1

Author(s):

James B. Kotcon

Keyword(s):

Population Dynamics ◽

Organic Farming ◽

Farming Systems ◽

Organic Farming Systems

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Reduced Tillage and No-Till in Organic Farming Systems, Germany—Status Quo, Potentials and Challenges

Agriculture ◽

10.3390/agriculture7040035 ◽

2017 ◽

Vol 7 (4) ◽

pp. 35 ◽

Cited By ~ 19

Author(s):

Sabine Zikeli ◽

Sabine Gruber

Keyword(s):

Organic Farming ◽

Farming Systems ◽

Status Quo ◽

Reduced Tillage ◽

No Till ◽

Organic Farming Systems

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Effect of Different Tillage Systems on Soil Organic Carbon and Enzymatic Activity

Agronomy ◽

10.3390/agronomy12010208 ◽

2022 ◽

Vol 12 (1) ◽

pp. 208

Author(s):

Małgorzata Szostek ◽

Ewa Szpunar-Krok ◽

Renata Pawlak ◽

Jadwiga Stanek-Tarkowska ◽

Anna Ilek

Keyword(s):

Organic Matter ◽

Organic Carbon ◽

Soil Organic Carbon ◽

Organic Farming ◽

Total Nitrogen ◽

Farming Systems ◽

Conventional Tillage ◽

Tillage Systems ◽

Organic Farming Systems ◽

Organic Matter Fractions

The aim of the study was to compare the effect of conventional, simplified, and organic farming systems on changes in the content of soil organic carbon, organic matter fractions, total nitrogen, and the enzymatic activity. The research was conducted from 2016–2018 on arable land in the south-eastern part of Poland. The selected soils were cultivated in conventional tillage (C_Ts), simplified tillage (S_Ts), and organic farming (O_Fs) systems. The analyses were performed in soil from the soil surface layers (up to 25 cm depth) of the experimental plots. The highest mean contents of soil organic carbon, total nitrogen, and organic matter fractions were determined in soils subjected to the simplified tillage system throughout the experimental period. During the study period, organic carbon concentration on surface soil layers under simplified tillage systems was 31 and 127% higher than the soil under conventional tillage systems and organic farming systems, respectively. Also, the total nitrogen concentration in those soils was more than 40% and 120% higher than conventional tillage systems and organic farming systems, respectively. Moreover, these soils were characterised by a progressive decline in SOC and Nt resources over the study years. There was no significant effect of the analysed tillage systems on the C:N ratio. The tillage systems induced significant differences in the activity of the analysed soil enzymes, i.e., dehydrogenase (DH) and catalase (CAT). The highest DH activity throughout the experiment was recorded in the O_Fs soils, and the mean value of this parameter was in the range of 6.01–6.11 μmol TPF·kg−1·h−1. There were no significant differences in the CAT values between the variants of the experiment. The results confirm that, regardless of other treatments, such as the use of organic fertilisers, tillage has a negative impact on the content of SOC and organic matter fractions in the O_Fs system. All simplifications in tillage reducing the interference with the soil surface layer and the use of organic fertilisers contribute to improvement of soil properties and enhancement of biological activity, which helps to maintain its productivity and fertility.

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