131. The effects of management and plant diversity on carbon storage in coffee agroforestry systems in Costa Rica

• Authors:
  • Haeger, A.
• Source: Agroforestry Systems
• Volume: 86
• Issue: 2
• Year: 2012
• Summary: Agroforestry systems can mitigate greenhouse gas (GHG) emissions, conserve biodiversity and generate income. Whereas the provision of ecosystem services by agroforestry is well documented, the functional relationships between species composition, diversity and carbon (C)-storage remain uncertain. This study aimed to analyze the effects of management (conventional vs. organic), woody plant diversity and plant composition on aboveground and belowground C-storage in coffee agroforestry systems. It was expected that organic farms would store more C, and that an increase in plant diversity would enhance C-storage due to complementarity effects. Additionally, it was expected that steep slopes decrease C-storage as a result of topsoil erosion. Woody plants were identified on 1 ha plots within 14 coffee farms (7 conventional and 7 organic). C-stocks in trees, coffee plants and roots were estimated from allometric equations. C-stocks in litter and topsoil (0-25 cm) were estimated by sampling. On average, farms stored 93 +/- A 29 Mg C ha(-1). Soil organic carbon accounted for 69 % of total C. Total C-stocks were 43 % higher on organic farms than on conventional farms (P < 0.05). Conventional and organic farms differed in vegetation structure, but not in species diversity. It was found that the combined effect of farm type, species richness, species composition and slope explained 83 % of the variation in total C-storage across all farms (P < 0.001). Coffee agroforestry in general and organic farms in particular may contribute to GHG mitigation and biodiversity conservation in a synergistic manner which has implications for the effective allocation of resources for conservation and climate change mitigation strategies in the agricultural sector.

132. The greenhouse gas balance of the oil palm industry in Colombia: a preliminary analysis. I. Carbon sequestration and carbon offsets.

• Authors:
  • Ruiz R., R.
  • Henson, I.
  • Romero, H.
• Source: Agronomia Colombiana
• Volume: 30
• Issue: 3
• Year: 2012
• Summary: Colombia is currently the world's fifth largest producer of palm oil and the largest producer in South and Central America. It has substantial areas of land that could be used for additional oil palm production and there is considerable scope for increasing yields of existing planted areas. Much of the vegetation on land suitable for conversion to oil palm has a low biomass, and so establishing oil palm plantations on such land should lead to an increase in carbon stock, thereby counteracting greenhouse gas (GHG) emissions responsible for global warming. The first part of this study examines changes in carbon stock in Colombia resulting from expansion of oil palm cultivation together with factors (offsets) that act to minimize carbon emissions. The results are subsequently used to construct a net GHG balance.

133. The greenhouse gas balance of the oil palm industry in Colombia: a preliminary analysis. II. Greenhouse gas emissions and the carbon budget.

• Authors:
  • Romero, H.
  • Ruiz R., R.
  • Henson, I.
• Source: Agronomia Colombiana
• Volume: 30
• Issue: 3
• Year: 2012
• Summary: In the preceding paper we examined carbon sequestration in oil palm plantations and in mill products and by-products as part of a study of the greenhouse gas balance of palm oil production in Colombia, showing how this has changed over time. Here, we look at the opposing processes of greenhouse gas (GHG) emission and calculate the resulting net carbon budget for the industry. The main emission sources, in decreasing order of magnitude, assessed using "default" or "most probable" options, were found to be land use change (40.9% of total), mill methane production (21.4%), direct use of fossil fuel (18.5%), indirect use of fossil fuel (11.9%) and nitrous oxide production (7.3%). The total (gross) emissions, expressed in carbon equivalents (Ceq.), were less than the amount of sequestered carbon, resulting in a positive net Ceq. balance. All oil palm growing regions showed a net gain with the exception of the western zone, where emissions due to land-use change were judged to be substantial. Of the 11 alternative scenarios tested, only three resulted in Ceq. balances lower than the default and only two gave a negative balance.

134. A review on soil carbon accumulation due to the management change of major Brazilian agricultural activities

• Authors:
  • De Figueiredo, E. B.
  • La Scala Junior, N.
  • Panosso, A. R.
• Source: Brazilian Journal of Biology
• Volume: 72
• Issue: 3
• Year: 2012
• Summary: Agricultural areas deal with enormous CO2 intake fluxes offering an opportunity for greenhouse effect mitigation. In this work we studied the potential of soil carbon sequestration due to the management conversion in major agricultural activities in Brazil. Data from several studies indicate that in soybean/maize, and related rotation systems, a significant soil carbon sequestration was observed over the year of conversion from conventional to no-till practices, with a mean rate of 0.41 Mg C ha(-1) year(-1). The same effect was observed in sugarcane fields, but with a much higher accumulation of carbon in soil stocks, when sugarcane fields are converted from burned to mechanised based harvest, where large amounts of sugarcane residues remain on the soil surface (1.8 Mg C ha(-1) year(-1)). The higher sequestration potential of sugarcane crops, when compared to the others, has a direct relation to the primary production of this crop. Nevertheless, much of this mitigation potential of soil carbon accumulation in sugarcane fields is lost once areas are reformed, or intensive tillage is applied. Pasture lands have shown soil carbon depletion once natural areas are converted to livestock use, while integration of those areas with agriculture use has shown an improvement in soil carbon stocks. Those works have shown that the main crop systems of Brazil have a huge mitigation potential, especially in soil carbon form, being an opportunity for future mitigation strategies.

135. Socio-Ecological Niches for Minimum Tillage and Crop-Residue Retention in Continuous Maize Cropping Systems in Smallholder Farms of Central Kenya

• Authors:
  • de Ridder, N.
  • Vanlauwe, B.
  • Pypers, P.
  • Guto, S. N.
  • Giller, K. E.
• Source: Agronomy Journal
• Volume: 104
• Issue: 1
• Year: 2012
• Summary: Soil fertility gradients develop on smallholder farms due to preferential allocation of inputs. A multi-location on-farm trial was conducted in Meru South, Central Kenya whose overall aim was to test minimum tillage and crop-residue retention practices in socio-ecological niches across heterogeneous smallholder farms. We identified three soil fertility classes together with the farmers, namely: good, medium, and poor. In each soil fertility class, two tillage (minimum or regular) and two crop residue (removed or retained) practices were tested for four consecutive seasons. Maize (Zea mays L.) grain yields in the good fields were above 2.5 Mg ha(-1) across cropping seasons and cumulated yields were not influenced by tillage or crop residue management. The grain yields in the medium fields ranged between 1.3 and 5.4 Mg ha(-1) and were greater with crop residue retention. In the poor fields, grain yield was

136. Adoption of improved cotton production technology in Dhar district of Madhya Pradesh (India).

• Authors:
  • Dabar, S.
  • Soni, S. N.
• Source: Journal of Soils and Crops
• Volume: 22
• Issue: 1
• Year: 2012
• Summary: After the green revolution and the development stage of cotton production in India the acceptance of improved cotton production technology/practices was getting the prime attention for increasing their production and productivity. Cotton research schemes and several extension education programmes were introduced to offer the education and training to farmers in respect of adopting the viable and proven improved cotton production technology/practices for their practical utilization in order to increase the income. In this context study was conducted in Dhar district. Madhya Pradesh to know the technological adoption level of cotton growers and to find out the association between socio personal and economic attributes of cotton growers with level of adoption. The study was conducted in the year of 2008-09. The study revealed that in respect of overall technology adoption, maximum cotton growers 50.22% adopted high level of technology followed by 34.11% respondents who adopted medium level and 15.67% respondents adopted low level of improved cotton production technology on their farms. The high level of adoption were reported in various extent i.e. in case of irrigation management (60.00%) followed by insect control measure (58.00%), rhizobium culture (58.00%), seed treatment (55.00%), recommended dose of fertilizer (52.00%), method of sowing (47.00%), weed management (46.00%), pest control measure (41.00%) and improved variety of seed (35.00%) respectively. The Study also revealed postive nature of phenomena the relationship between socio personal and economic characteristics of cotton growers and adoption level of improved cotton production technology. The zero order correlation coefficient of characteristic of cotton growers depicted in respect of age was 0.470**, for caste 0.283**, for level of income 0.392**, for level of employment 0.468**, for social participation 0.289** and for size of family 0.431. These characteristics were found to positively significant with adoption level of cotton production technology at 0.01 level of probability respectively. On the other hand, the characteristics like size of land holding had the correlation coefficient value of 0.200*, for material possession 0.248*, for economic motivation 0.201*, for attitude towards improved practices 0.215* and for extension participation 0.247* and these values were found positively significant with adoption level of cotton production technology at 0.05 level of probability respectively.

137. Organic residue management in summer irrigated cotton. I. Effect of preceding irrigated dry crops on growth and yield of hirsutum cotton.

• Authors:
  • Srinivasan, G.
• Source: Journal of Cotton Research and Development
• Volume: 26
• Issue: 1
• Year: 2012
• Summary: Field experiment was conducted at Cotton Research Station, Srivilliputtur during 2005-2008 to study the response of summer irrigated cotton to the preceding crop, residue management and INM practices. The results revealed that maize as a preceding crop was advantageous with its stalk incorporated with the highest seed cotton yield of 1573 kg/ha and was comparable with maize as a preceding crop with stalk removed. With regard to INM practices, application of 100 per cent RD of fertilizers+azophos registered the highest seed cotton yield and was comparable with 75 per cent RD of fertilizers+azophos, 100 per cent RD of fertilizers+FYM and 100 per cent RD of fertilizers alone indicating that 75 per cent RD of fertilizers+azophos was optimum to get economic yield.

138. Analyzing the agricultural transition in Mato Grosso, Brazil, using satellite-derived indices.

• Authors:
  • Begue, A.
  • Dubreuil, V.
  • Meirelles, M.
  • Arvor, D.
  • Shimabukuro, Y. E.
• Source: Applied Geography
• Volume: 32
• Issue: 2
• Year: 2012
• Summary: The Amazonian state of Mato Grosso is the main production area for soybeans in Brazil and contains 31.3% of the national production as of 2009. The rapid evolution of the agricultural systems in this area shows that the region is experiencing a rapid agricultural transition. In this paper, we broke down this transition process into three steps: crop expansion, agricultural intensification and ecological intensification. We used remote sensing products to develop and compute satellite-derived indices describing the main agricultural dynamics during the cropping years from 2000-2001 to 2006-2007. Our results indicated that Mato Grosso is continuing to expand its agricultural sector, with a 43% increase in the net cropped area during the study period. Although this expansion mainly occurred in the cerrado ecoregion until the early 2000s, the forest ecoregion is experiencing expansion at this time. We observed that 65% of the crop expansion in Mato Grosso from 2000 to 2006 occurred in this ecoregion. However, we did not identify this crop expansion as the major driver of deforestation in Mato Grosso because only 12.6% of the cleared areas were directly converted into croplands. Agricultural intensification also evolved rapidly, as the proportion of the net cropped area cultivated with double cropping systems harvesting two successive commercial crops (i.e., soybean and corn or soybean and cotton) increased from 6% to 30% during the study period. Finally, we found that ecological intensification occurred because the region's farmers planted a non-commercial crop (i.e., millet or sorghum) after the soybean harvest to prevent soil erosion, improve soil quality, break pest cycles, maintain soil moisture and set the conditions for high-quality no-tillage operations. In 2006-2007, 62% of the net cropped area was permanently covered by crops during the entire rainy season. This practice allowed the farmers to diversify their production, as shown by the positive evolution of the Area Diversity Index. Future scholars can use the method proposed in this paper to improve their understanding of the forces driving the agricultural dynamics in Mato Grosso.

139. Management Systems and the Carbon and Nitrogen Stocks of Cerrado Oxisol Under Soybean-Maize Succession

• Authors:
  • Mendes, I.
  • de Castro Lopes, A.
  • Nunes, R.
  • Gomes de Sousa, D.
• Source: Revista Brasileira de Ciencia do Solo
• Volume: 35
• Issue: 4
• Year: 2011
• Summary: MANAGEMENT SYSTEMS AND THE CARBON AND NITROGEN STOCKS OF CERRADO OXISOL UNDER SOYBEAN-MAIZE SUCCESSION Carbon and N stocks in soils are determined by the balance between addition and losses, and tillage and cropping systems are decisive in this process. This study aimed to evaluate the effect of soil management systems based on tillage, cover crops and P fertilization on C and N stocks in physical fractions of the soil organic matter and on microbial biomass and respiration in a soil after 11 years under soybean-maize rotation. The experiment was initiated in 1999 in an Oxisol with adequate level of available P to obtain form 80 to 90 % of potential yields of annual crops. The experiment was arranged in a split-plot design in randomized blocks, with three management systems based on soil tillage and cover crop (conventional tillage with pearl millet, no-tillage with pearl millet and no-tillage with velvet bean) assigned to the main plots and two P levels (0 and 100 kg ha(-1) yr(-1) of P2O5 as triple superphosphate applied at sowing) in subplots. Soil samples were collected at the grain filling stage of soybean (March 2010), from the soil layers 0-5, 5-10 and 10-20 cm, and subjected to physical fractionation of organic matter and microbial analysis. The no-tillage system resulted in stratification of organic C and N while conventional tillage resulted in a more homogeneous distribution in the 0-20 cm layer. Phosphorus fertilization for 11 years led to an accumulation of organic C and N in the soil, regardless of tillage and cover crop systems. Higher stocks of organic C and total N, higher microbial biomass C and lower microbial respiration were found under no-tillage than conventional tillage, both with pearl millet as cover crop. In the no-tillage systems, greater stocks of organic C and total N, similar microbial biomass C and higher microbial respiration were found with pearl millet as cover crop compared to velvet bean. The conversion rate of C added by crops to soil organic C was 4.0, 8.2 and 14.3 % for conventional tillage with pearl millet and no-tillage with pearl millet and with velvet bean, respectively.

140. Short term effects of tillage-mulch practices under sorghum and soybean on organic carbon and eutrophic status of a degraded ultisol in southeastern Nigeria.

• Authors:
  • Wakatsuki, T.
  • Obi, M.
  • Okpara, I.
  • Obalum, S.
• Source: Tropical and Subtropical Agroecosystems
• Volume: 14
• Issue: 2
• Year: 2011
• Summary: A key indicator of soil quality as organic carbon needs to be enhanced in the highly weathered soils predominant in southeastern Nigeria through appropriate tillage-mulch practices and cropping systems. We subjected a degraded Typic Paleustult (sandy loam) at Nsukka to no-till (NT) and conventional tillage (CT) and bare fallow (B) and mulch cover (M). This was duplicated with one sole-cropped to sorghum and the other to soybean as separate crop treatments during 2006 and 2007 growing seasons. The CT resulted in higher available P (P av) (under soybean) and cation exchange capacity (CEC) (under both crops) than the NT. Mulch gave lower P av under sorghum and vice versa under soybean. Exchangeable Ca was lowered while exchangeable acidity was enhanced with mulch under soybean. Overall, soil organic carbon and exchangeable Mg, Na and acidity were enhanced under soybean relative to sorghum; the reverse was the case for P av. However, the soil's CEC indicated comparable values in both cropping systems. Our results suggest that cropping 'CT with M' soil to soybean could be a promising agronomic combination for enhancing the SOC and fertility status of the soil.