207 research outputs found
Assessing Resilience of Pasture Production to Climatic Changes
Increasing temperatures and atmospheric carbon dioxide (CO2) concentrations, together with changes to rainfall patterns, will influence seasonal pasture production; however climate change projections for south eastern Australia are uncertain (CSIRO and BoM 2007). Despite this, climate change impact assessments generally rely on specific climate projections, but in this study an alternative approach was developed to test the resilience of production to incremental changes in climate
Modelling Adaptation and Mitigation Strategies for Southern Livestock Industries of Australia
Climate change will impact on the Australian grazing industries both through mitigation policies and the impact of warmer temperatures, increased atmospheric CO2 and changed rainfall patterns (Cullen et al. 2009; Eckard et al. 2010). Mechanistic models are useful tools to inform our understanding of the complex interactions between future climates and the soil, plant, animal and management in livestock production systems.
This paper summarises the results of a number of whole farm systems modelling studies investigating likely impacts of climate change, adaptation options and emissions implications for livestock production in southern Australia
Nitrogen Balances in High Rainfall, Temperate Dairy Pastures of South Eastern Australia
Nitrogen (N) fertilizer use on dairy pastures in south eastern Australia has increased exponentially over the past 15 years, causing increasing environmental concerns. Volatilisation, denitrification and leaching of N were measured for one year (1998-1999) in pastures receiving no N fertilizer (grass/clover), or 200 kg N/ha applied as urea (46%N) or ammonium nitrate (34.5%N). Nitrogen balances were calculated for each treatment.
Significantly more N was lost through volatilisation and denitrification when N was applied as urea compared to ammonium nitrate. Nitrate leaching losses were significantly greater with the application of N fertilizer, although the maximum loss was only 4.1 kg N/ha due to low rainfall between May and September. Nitrogen balances were -15, +87 and +82 kg N/ha per year for the grass/clover, 200 kg N/ha urea and 200 kg N/ha ammonium nitrate treatments, respectively. Given the large range in N losses and balances, there is opportunity for improving the N efficiency in dairy pastures, through lower stocking rates and more tactical use of grain and N fertilizer
Does collaborative farm-scale modelling address current challenges and future opportunities?
Resources required increasing, resources available decreasingFarm-scale modellers will need to make strategic decisionsSingle-owner modelsMay continue with additional resourcesRisk of ‘succession’ problemCommunity modelling is an alternativeNeed to continue building a community of farm modellersThe results will be published as a peer-reviewed article
Can seasonal soil N mineralisation trends be leveraged to enhance pasture growth?
SoilNmineralisation is the process bywhich organicN is converted into plant-available forms,while
soil N immobilisation is the transformation of inorganic soil N into organicmatter and microbial biomass, thereafter
becoming bio-unavailable to plants. Mechanistic models can be used to explore the contribution of
mineralised or immobilised N to pasture growth through simulation of plant, soil and environment interactions
driven by management.
Purpose: Our objectiveswere (1) to compare the performance of three agro-ecosystemsmodels (APSIM, DayCent
and DairyMod) in simulating soil N, pasture biomass and soil water using the same experimental data in three
diverse environments (2), to determine if tactical application of N fertiliser in different seasons could be used
to leverage seasonal trends in N mineralisation to influence pasture growth and (3), to explore the sensitivity
of N mineralisation to changes in N fertilisation, cutting frequency and irrigation rate
Energy dependence of multiplicity fluctuations in heavy ion collisions
The energy dependence of multiplicity fluctuations was studied for the most central Pb+Pb collisions at 20A, 30A, 40A, 80A and 158A GeV by the NA49 experiment at the CERN SPS. The multiplicity distribution for negatively and positively charged hadrons is significantly narrower than Poisson one for all energies. No significant structure in energy dependence of the scaled variance of multiplicity fluctuations is observed. The measured scaled variance is lower than the one predicted by the grand-canonical formulation of the hadron-resonance gas model. The results for scaled variance are in approximate agreement with the string-hadronic model UrQMD
Outsourcing and structural change: shifting firm and sectoral boundaries
The paper aims at investigating the structural change implications of
outsourcing. In trying to bridge the organizational/industrial and the
sectoral/structural analysis of outsourcing, it discusses the rational and
the methodological pros and cons of a “battery” of outsourcing measurements
for structural change analysis. Their functioning is then illustrated
through a concise application of them to the OECD area over the ’80s and
the early ’90s. A combined used of them emerges as recommendable in
checking for the role of outsourcing with respect to that of other structural
change determinants
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