Add to ORKGThis chapter reviews the issues related to the responses of crops and soil fertility to management strategies aimed to conserve soil carbon, especially for Mediterranean-Temperate conditions. It reports the main results from field experiments conducted in three different Italian sites in order to compare traditional and innovative soil treatments for carbon sequestration. Field agronomic treatments included traditional and minimum tillage, green manuring, two rates of mature compost application, and spreading of water-soluble Fe–porphyrin. Their effects were tested in different sites representing distinct pedo-climatic onditions
Management practices can have significant implications for both soil quality and carbon (C) sequestr...
Copyright © 2014 S. Doni et al. This is an open access article distributed under the Creative Common...
The aim of this chapter was to quantify the soil organic carbon (SOC) stock in the top 30 cm of mine...
This chapter reviews the issues related to the responses of crops and soil fertility to management s...
Greenhouse gases emissions can be counterbalanced with proper agronomical strategies aimed at seques...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
In southern Europe (Italy), a two-site field experiment with contrasting soil conditions (high clay?...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
By choosing appropriate practices, carbon can be stored in the soil as a means of mitigating (mitiga...
Sustainable agricultural management is needed to promote carbon (C) sequestration in soil, prevent l...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
Sustainable agricultural management is needed to promote carbon (C) sequestration in soil, prevent l...
Not AvailableChanges to agricultural practses inresponse to climate change and wide spread soil degr...
One of the most important terrestrial pools for carbon (C) storage and exchange with atmospheric CO2...
Increasing carbon storage in soils is one way of mitigating climate change. Carbon sequestration in ...
Management practices can have significant implications for both soil quality and carbon (C) sequestr...
Copyright © 2014 S. Doni et al. This is an open access article distributed under the Creative Common...
The aim of this chapter was to quantify the soil organic carbon (SOC) stock in the top 30 cm of mine...
This chapter reviews the issues related to the responses of crops and soil fertility to management s...
Greenhouse gases emissions can be counterbalanced with proper agronomical strategies aimed at seques...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
In southern Europe (Italy), a two-site field experiment with contrasting soil conditions (high clay?...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
By choosing appropriate practices, carbon can be stored in the soil as a means of mitigating (mitiga...
Sustainable agricultural management is needed to promote carbon (C) sequestration in soil, prevent l...
Management of agricultural soils may determine soil carbon emission to the atmosphere (source) or so...
Sustainable agricultural management is needed to promote carbon (C) sequestration in soil, prevent l...
Not AvailableChanges to agricultural practses inresponse to climate change and wide spread soil degr...
One of the most important terrestrial pools for carbon (C) storage and exchange with atmospheric CO2...
Increasing carbon storage in soils is one way of mitigating climate change. Carbon sequestration in ...
Management practices can have significant implications for both soil quality and carbon (C) sequestr...
Copyright © 2014 S. Doni et al. This is an open access article distributed under the Creative Common...
The aim of this chapter was to quantify the soil organic carbon (SOC) stock in the top 30 cm of mine...