301. Establishment of non-native plant species after wildfires: effects of fuel treatments, abiotic and biotic factors, and post-fire grass seeding treatments

• Authors:
  • Chong, G. W.
  • Martinson, E. J.
  • Omi, P. N.
  • Hunter, M. E.
• Source: International Journal of Wildland Fire
• Volume: 15
• Issue: 2
• Year: 2006
• Summary: Establishment and spread of non-native species following wildfires can pose threats to long-term native plant recovery. Factors such as disturbance severity, resource availability, and propagule pressure may influence where non-native species establish in burned areas. In addition, pre- and post-fire management activities may influence the likelihood of non-native species establishment. In the present study we examine the establishment of non-native species after wildfires in relation to native species richness, fire severity, dominant native plant cover, resource availability, and pre- and post-fire management actions (fuel treatments and post-fire rehabilitation treatments). We used an information-theoretic approach to compare alternative hypotheses. We analysed post-fire effects at multiple scales at three wildfires in Colorado and New Mexico. For large and small spatial scales at all fires, fire severity was the most consistent predictor of non-native species cover. Non-native species cover was also correlated with high native species richness, low native dominant species cover, and high seeded grass cover. There was a positive, but non-significant, association of non-native species with fuel-treated areas at one wildfire. While there may be some potential for fuels treatments to promote non-native species establishment, wildfire and post-fire seeding treatments seem to have a larger impact on non-native species.

302. A study of environmental and management drivers of non-CO<SUB>2</SUB> greenhouse gas emissions in Australian agro-ecosystems

• Authors:
  • Kelly, K.
  • Baigent, R.
  • Eckard, R.
  • Weeks, I.
  • Leuning, R.
  • Phillips, F.
  • Barker-Reid, F.
  • Gates, W.
  • Grace, P.
  • Galbally, I.
  • Meyer, M.
  • Bentley, S.
• Source: Environmental Sciences
• Volume: 2
• Issue: 2-3
• Year: 2005

303. Roundup ready soybeans in Argentina: Farm level and aggregate welfare effects

• Authors:
  • Traxler, G.
  • Qaim, M.
• Source: Agricultural Economics
• Volume: 32
• Issue: 1
• Year: 2005

304. Greenhouse gas contributions and mitigation potential of agricultural practices in northwestern USA and western Canada

• Authors:
  • Schuman, G. E.
  • Gollany, H. T.
  • Ellert, B. H.
  • Reeder, J. D.
  • Morgan, J. A.
  • Liebig, M. A.
• Source: Soil & Tillage Research
• Volume: 83
• Issue: 1
• Year: 2005
• Summary: Concern over human impact on the global environment has generated increased interest in quantifying agricultural contributions to greenhouse gas fluxes. As part of a research effort called GRACEnet (Greenhouse Gas Reduction through Agricultural Carbon Enhancement Network), this paper summarizes available information concerning management effects on soil organic carbon (SOC) and carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4) fluxes in cropland and rangeland in northwestern USA and western Canada, a region characterized by its inherently productive soils and highly variable climate. Continuous cropping under no-tillage in the region increased SOC by 0.27 ± 0.19 Mg C ha-1 yr-1, which is similar to the Intergovernmental Panel on Climate Change (IPCC) estimate for net annual change in C stocks from improved cropland management. Soil organic C sequestration potential for rangelands was highly variable due to the diversity of plant communities, soils, and landscapes, underscoring the need for additional long-term C cycling research on rangeland. Despite high variability, grazing increased SOC by 0.16 ± 0.12 Mg C ha-1 yr-1 and converting cropland or reclaimed mineland to grass increased SOC by 0.94 ± 0.86 Mg C ha-1 yr-1. Although there was generally poor geographical coverage throughout the region with respect to estimates of N2O and CH4 flux, emission of N2O was greatest in irrigated cropland, followed by non-irrigated cropland, and rangeland. Rangeland and non-irrigated cropland appeared to be a sink for atmospheric CH4, but the size of this sink was difficult to determine given the few studies conducted. Researchers in the region are challenged to fill the large voids of knowledge regarding CO2, N2O, and CH4 flux from cropland and rangeland in the northwestern USA and western Canada, as well as integrate such data to determine the net effect of agricultural management on radiative forcing of the atmosphere.

305. Atmospheric carbon mitigation potential of agricultural management in the southwestern USA

• Authors:
  • Johnsen, T. N.
  • McLain, J. E. T.
  • Emmerich, W.
  • Martens, D. A.
• Source: Soil & Tillage Research
• Volume: 83
• Issue: 1
• Year: 2005
• Summary: Agriculture in the southwestern USA is limited by water supply due to high evaporation and limited seasonal precipitation. Where water is available, irrigation allows for production of a variety of agricultural and horticultural crops. This review assesses the impacts of agriculture on greenhouse gas emission and sequestration of atmospheric C in soils of the hot, dry region of the southwestern USA. In Texas, conservation tillage increased soil organic C by 0.28 Mg C ha(-1) year(-1) compared with more intensive tillage. Conversion of tilled row crops to the conservation reserve program or permanent pastures increased soil organic C by 0.32 +/- 0.50 Mg C ha(-1) year(-1). Soil organic C sequestration was dependent on rotation, previous cropping, and type of conservation tillage employed. Relatively few studies have interfaced management and C cycling to investigate the impacts of grazing management on soil organic C, and therefore, no estimate of C balance was available. Irrigated crop and pasture land in Idaho had soil organic C content 10-40 Mg C ha(-1) greater than in dryland, native grassland. Soil salinity must be controlled in cropland as soil organic C content was lower with increasing salinity. Despite 75% of the region's soils being classified as calcic, the potential for sequestration of C as soil carbonate has been only scantly investigated. The region may be a significant sink for atmospheric methane, although in general, trace gas flux from semiarid soils lacks adequate characterization. Agricultural impacts on C cycling will have to be better understood in order for effective C sequestration strategies to emerge. Published by Elsevier B.V.

306. Agricultural dust production in standard and conservation tillage systems in the San Joaquin Valley

• Authors:
  • Mitchell, J. P.
  • Southard, R. J.
  • Baker, J. B.
• Source: Journal of Environmental Quality
• Volume: 34
• Issue: 4
• Year: 2005
• Summary: The negative health effects of repeated dust exposure have been well documented. In California's San Joaquin Valley, agricultural operations may contribute substantially to airborne particulates. We evaluated four management systems to assess impacts on dust production and soil properties for a cotton (Gossypium hirsutum L.)-tomato (Lycopersicon esculentum Mill.) rotation: standard tillage with (STCC) and without (STNO) cover crop, and conservation tillage with (CTCC) and without (CTNO) cover crop. Gravimetric analysis of total dust (TD, < 100-mu m aerodynamic diameter) and respirable dust (RD, 4-mu m aerodynamic diameter) samples collected in the plume generated by field implements showed that dust concentrations for CTNO treatments were about one-third of their STNO counterparts for both cumulative TD and RD measured throughout the two-year rotation, primarily due to fewer in-field operations. The TD and RD production for STNO and STCC was comparable, whereas the CTCC system produced about twice as much TD and RD as CTNO. Energy dispersive spectroscopy (EDS) analyses showed absolute increases of 8 and 39% organic fragments in STCC and CTCC over STNO and CTNO, respectively, while organic fragments in the TD increased by 6% in both cover crop treatments. Soil C content was positively correlated with clay content and increased by an average of 0.12 and 0.07% in the cover crop and non-cover crop treatments, respectively, although soil C for each treatment showed a distinct response to a field texture gradient. While dust emissions show an immediate decrease due to fewer field operations for the conservation tillage treatments, long-term sampling is necessary to determine the effects that increased aggregation through organic matter additions may have on dust production.

307. On-farm evaluation of conservation measures to performance of rainfed crops in semi-arid region.

• Authors:
  • Parandiyal, A.
  • Singh, S.
  • Arjun, P.
  • Singh, K.
  • Ashok, K.
  • Shakir, A.
  • Prasad, S.
  • Singh, R.
• Source: Indian Journal of Soil Conservation
• Volume: 33
• Issue: 2
• Year: 2005
• Summary: Bunding and field levelling are the most preferred activities in the community-driven watershed projects in the semiarid region. In a two-year study carried out during June 1999 to June 2001 on a farmer's field in a ravinous watershed located in south-eastern Rajasthan, India, the effect of bunding and levelling on in situ moisture conservation and corresponding increase in grain and stover yields of chickpea, mustard, sorghum and soyabean was compared. These land treatments considerably improved profile moisture and crop yields during normal as well as deficit monsoon year. Results indicated that conservation measures can potentially stabilize crop production under dryland cropping systems. The land treatments and choice of crops were significant factors influencing economic productivity of land uses. In response to bunding alone and bunding with levelling, crop production increased by 46 and 112%, respectively, over control. Mustard cultivation recovered 76% of the bunding cost and 64% of the bunding+levelling cost in the first year only after imposing land treatments. It is concluded that in semiarid regions, appropriate conservation measures coupled with suitable land use planning result in convincing tangible benefits on short-terms basis, apart from their protective and long-term intangible benefits.

308. Determination of the host range of Fusarium moniliforme isolated from winter wild oat (Avena ludoviciana) in Iran.

• Authors:
  • Shimi, P.
  • Kazemi, H.
• Source: Iranian Journal of Weed Science
• Volume: 1
• Issue: 1
• Year: 2005
• Summary: An isolate of F. moniliforme [Gibberella moniliformis], a pathogen of winter wild oat (A. ludoviciana [A. sterilis var. ludoviciana]), was obtained from Tehran Province, Iran, in 1994. A host range test performed on wheat, barley, maize, rye, millet, crested wheatgrass, faba bean, red bean, green bean, sunflower, soyabean, oilseed rape, cotton, safflower, cucumber, water melon, berseem clover, and sainfoin, resulted in no symptom induction by the pathogen. However, winter wild oat, crested wheatgrass, johnsongrass and tomato showed susceptibility to the pathogen with 78, 24, 19 and 17% mortality, respectively. The results indicate that this pathogen could be considered as a potential biological agent for the control of winter wild oat.

309. The dynamics and driving force of farmland ecosystem productivity.

• Authors:
  • Li, Y. S.
  • Shao, M. A.
  • Zhong, L. P.
• Source: Agricultural Sciences in China
• Volume: 4
• Issue: 1
• Year: 2005
• Summary: Based on the experimental data of crop yield, soil water and fertility of a dryland farming ecosystem in northwest China, a systematic analysis is carried out using spring maize and winter wheat to study the dynamics of dryland farming ecosystem productivity and its limiting factors. This paper also discusses which of the two limiting factors, i.e., soil water or fertility, is the primary factor and their dynamics. The result shows that fertility is the primary limiting factor when the productivity is rather low. As chemical fertilizer input increases and the productivity promotes, water gradually becomes the primary limiting factor. Chemical fertilizers and plastic film mulching are the two major driving forces that determine the crop productivity and its stability in these areas.

310. The history of herbicide-resistant weeds in Chile.

• Authors:
  • Prado A., R. del
  • Diaz S., J.
  • Espinoza N., N.
• Source: XVII Congreso de la Asociación Latinoamericana de Malezas (ALAM) I Congreso Iberoamericano de Ciencia de las Malezas, IV Congreso Nacional de Ciencia de Malezas, Matanzas, Cuba, 8 al 11 de noviembre del 2005, pp. 326
• Year: 2005
• Summary: Eight biotypes of herbicide-resistant weeds have been described in Chile. All belong to grass weeds, specifically wild oat ( Avena fatua), ryegrass ( Lolium rigidum), Italian ryegrass ( L. multiflorum) and crested dogtailgrass ( Cynosurus echinatus), which are the most common in the main wheat, barley, oats, lupin and canola producing area (36degreesS to 39degreesS). The biotypes have shown resistance to ACCasa, ALS and EPSP inhibitors. Most biotypes have appeared in farm fields subjected to intensive land use, with annual crops, with a trend to wheat monoculture in some cases, and with intense use of no-till and herbicides with similar mode of action. Herbicides most frequently used have been glyphosate (EPSP), diclofop-methyl and clodinafop-propargyl (ACCasa). Cross-resistance to ACCasa was found in some biotypes of wild oat and ryegrass, with greater resistance to aryloxyphenoxypropionates than to cyclohexanediones. All ACCasaresistant biotypes were susceptible to iodosulfuron and flucarbazone Na (ALS). These two herbicides are recommended for wheat and began to be used just recently in the country. Two biotypes of Italian ryegrass were found resistant to glyphosate. One of these biotypes showed, in addition, resistance to ALS; that is to say, showed multiple resistance. Also the crested dogtailgrass biotype showed multiple resistance to ACCasa and ALS.