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Evaluation of multipurpose fodder trees in Nepal : a thesis submitted in partial fulfilment of the requirement for the degree of Doctor of Philosophy (Ph. D.) in Forestry, Institute of Natural Resources, Massey University, Palmerston North, New ZealandKshatri, Bhoj Bahadur January 2007 (has links)
This PhD thesis consists of nine chapters describing aspects of the subsistence farms of western Nepal in general, and a need-based evaluation of multipurpose fodder trees (MFT) as a source of dry-season forage for ruminants in particular, as a basis for mitigating the current high rate of land degradation and loss of productivity in livestock production systems in the region. Understanding the complex farming systems that provide a living for 65% of the 27.1 million people in Nepal is the key to designing effective programmes of research and development. Evaluation methods include review of past work, farmers group workshops to identify current practice in the use of MFT in Nepal, studies on biomass production of Artocarpus lakoocha and Ficus glaberrima trees older than 50 years in Nepal and the propagation of F. benjamina, comparison of the feeding preferences of sheep for alternative browse species, and study of the nutritive value of alternative forage diets for lactating buffalo. Reviews showed 2.2 million cattle and 1 million buffalo are an extra burden to steep land where productivity is declining at the rate of 1.25% per year. Indigenous knowledge identified Ficus glaberrima with its three varieties (Maghe, Chaite and Jethe), A. lakoocha, F. benjamina and Bassia butyracea as the best four MFT for renovating degraded lands. A survey study showed significantly higher dry matter (DM) production by F. glaberrima than A. lakoocha (154 vs 91 kg DM /tree/year) during dry periods at low altitude (800 - 1000m). There was no significant difference in production of fat - corrected milk (FCM ) between buffalos eating A. lakoocha, F.glaberrima or a diet of 53% straw and 47% F. glaberrima (DM basis). Metabolisable energy balance (MJME/day) was greater in Artocarpus than Ficus, with the mixed diet intermediate (+1.60, -0.34 and -12.94 MJ ME/buffalo/day respectively, relative to requirements, P=0.0318). When fed together in an indoor trial, poplar (48% = 106 g DM/sheep/day) and willow (43% = 95 g DM/sheep/day) were preferred to Ficus benjamina (8% = 18 g DM/sheep/day) by sheep, reflecting the greater maturity and structural strength of leaves of Ficus. These results are used to develop recommendations for choice of MFT species and management strategies to improve the sustainability and productivity of livestock systems incorporating fodder trees
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Analýza krmivové základny v Agro-B s.r.o., Kardašova Řečice a návrhy na její zlepšení / Analysis of fodder crop production in Agro B s.r.o., Kardašova Řečice and projects to it´s improvementPÍCHOVÁ, Ivana January 2007 (has links)
In the years 2005-2006 it was practised the analysis of plant production and the evaluation of typological structure of selected grasslands in selected farming business. It were evaluated the gualitative indices of produced roughage. It were evaluated the area sof annual crops, multi-annual fodder crops and of permanent grasslands and the produce of fodder of fodder crops and the sort and categories of stock cattle.
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Vliv vodního stresu na vybrané druhy trav a porostovou skladbu travních porostů. / The influence of water stress on selected grass species and sward botanical compositionPAVELOVÁ, Lenka January 2013 (has links)
The main goal of this thesis is to ascertain the influence of a water stress on regenerative and growth properties of grasses which were exposed to a water deficit and the influence on area composition of certain permanent grass vegetation. Assessment levels were based on container experiments. Each container contained selected class and subclass of a grass with different water regime demands. The aim of these experiments was to determine regenerative and growth abilities of chosen grasses which were exposed to water deficit and their ability to regenerate after drought during the grass branching phase. Another part of these experiments was to assess water regime impact on distribution of grasses in chosen areas. In the Czech Republic, grass vegetation is one of the basic food components for farm animals, mainly cattle, and it is an important landscaping element. It is also a component of forage industry which is a significant part of an agriculture output and the main goal in practice is to provide sufficient production of high quality,biologically valuable and healthy fodder.
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Growth performance, chemical composition and silage quality of napier (Pennisetum Purpureum) and guinea (Pacinum Maximun) fodder irrigated with bio-digester slurryLubisi, Mfanuzile Welcome 29 January 2016 (has links)
MSCAGR / Department of Animal Science
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Dynamics of Napier stunt phytoplasma between the cultivated and wild graminae in East Africa / George Ochieng AsudiAsudi, George Ochieng January 2015 (has links)
Cultivation of Napier grass, Pennisetum purpureum, the most important livestock crop in East Africa is severely constrained by Napier Grass Stunt (NGS) disease. The disease spreads via an insect vector or vegetative propagation of infected plant material and is caused by a phytoplasma. This necessitates the development of an integrated management approach for the disease. Therefore, objectives of this study were to assess the incidence of the disease and its severity, to identify its wild hosts and farmers‟ knowledge on these hosts, to assess the threat of NGS disease to cultivated grasses and to establish the role of wild inoculum sources in its spread. The study showed NGS incidence ranging from 33% in Uganda to 95% in Kenya with 49% of the farmers interviewed, being able to discern NGS disease by its symptoms. Most farmers cited roguing and use of alternative fodder grasses as control measures, making these strategies the likely components of an integrated management approach for the disease. Responders named Sedge grass (Cyperus spp.) and Star grass (Cynodon dactylon) as the likely hosts of diseases caused by phytoplasma. Phytoplasmas were detected in leaves of 11 of 33 wild grass species collected using polymerase chain reaction (PCR) based on the highly conserved phytoplasma-specific 16S ribosomal DNA fragment. Sequence determination of amplified PCR fragments revealed the presence of NGS-related phytoplasmas in 11 grass species, Bermuda grass white leaf (BGWL) phytoplasmas in three and goosegrass white leaf (GGWL) in two wild grass species, showing that the geographical distribution and diversity of phytoplasmas and their grass hosts are greater than previously thought. The relationships between NGS and Hyparrhenia grass white leaf (HGWL) phytoplasmas were determined using sequences based on secA gene and immunodominant protein (imp). Results showed a very low genetic diversity between NGS and HGWL and produced a phylogenetic tree congruent to that produced by the 16S, affirming the inclusion of HGWL in the 16SrXI group. NGS phytoplasma was transmissible to food crops through Maiestas banda Kramer (Hemiptera: Cicadellidae) under screen-house conditions. With 56.3%, Saccharum officinarum showed the highest infection level followed by Eleusine coracana with 50%, Sorghum bicolor with 43.8%, Oryza sativa with 31.3% and Zea mays with 18.8%. All the phytoplasma-infected plants were asymptomatic except S. officinarum plants, which showed mild to moderate symptoms consisting of foliar yellow leaves and bright white or yellow midribs. This hints that besides wild hosts, food crops may also serve as alternative source of inoculum enabling a complex NGS disease cycle, which may add to challenges in the development of the disease control strategies. However, failure by M. banda to transmit HGWL and BGWL phytoplasmas back to Napier grass is an indication that it could be the exclusive vector of NGS. Therefore, there is need to initiate transmission trials using planthoppers and leafhoppers occurring on HGWL and BGWL phytoplasma-infected grasses to determine whether insect vectors capable of transmitting phytoplasmas from native grasses to Napier grass, are present in the region. / PhD (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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Dynamics of Napier stunt phytoplasma between the cultivated and wild graminae in East Africa / George Ochieng AsudiAsudi, George Ochieng January 2015 (has links)
Cultivation of Napier grass, Pennisetum purpureum, the most important livestock crop in East Africa is severely constrained by Napier Grass Stunt (NGS) disease. The disease spreads via an insect vector or vegetative propagation of infected plant material and is caused by a phytoplasma. This necessitates the development of an integrated management approach for the disease. Therefore, objectives of this study were to assess the incidence of the disease and its severity, to identify its wild hosts and farmers‟ knowledge on these hosts, to assess the threat of NGS disease to cultivated grasses and to establish the role of wild inoculum sources in its spread. The study showed NGS incidence ranging from 33% in Uganda to 95% in Kenya with 49% of the farmers interviewed, being able to discern NGS disease by its symptoms. Most farmers cited roguing and use of alternative fodder grasses as control measures, making these strategies the likely components of an integrated management approach for the disease. Responders named Sedge grass (Cyperus spp.) and Star grass (Cynodon dactylon) as the likely hosts of diseases caused by phytoplasma. Phytoplasmas were detected in leaves of 11 of 33 wild grass species collected using polymerase chain reaction (PCR) based on the highly conserved phytoplasma-specific 16S ribosomal DNA fragment. Sequence determination of amplified PCR fragments revealed the presence of NGS-related phytoplasmas in 11 grass species, Bermuda grass white leaf (BGWL) phytoplasmas in three and goosegrass white leaf (GGWL) in two wild grass species, showing that the geographical distribution and diversity of phytoplasmas and their grass hosts are greater than previously thought. The relationships between NGS and Hyparrhenia grass white leaf (HGWL) phytoplasmas were determined using sequences based on secA gene and immunodominant protein (imp). Results showed a very low genetic diversity between NGS and HGWL and produced a phylogenetic tree congruent to that produced by the 16S, affirming the inclusion of HGWL in the 16SrXI group. NGS phytoplasma was transmissible to food crops through Maiestas banda Kramer (Hemiptera: Cicadellidae) under screen-house conditions. With 56.3%, Saccharum officinarum showed the highest infection level followed by Eleusine coracana with 50%, Sorghum bicolor with 43.8%, Oryza sativa with 31.3% and Zea mays with 18.8%. All the phytoplasma-infected plants were asymptomatic except S. officinarum plants, which showed mild to moderate symptoms consisting of foliar yellow leaves and bright white or yellow midribs. This hints that besides wild hosts, food crops may also serve as alternative source of inoculum enabling a complex NGS disease cycle, which may add to challenges in the development of the disease control strategies. However, failure by M. banda to transmit HGWL and BGWL phytoplasmas back to Napier grass is an indication that it could be the exclusive vector of NGS. Therefore, there is need to initiate transmission trials using planthoppers and leafhoppers occurring on HGWL and BGWL phytoplasma-infected grasses to determine whether insect vectors capable of transmitting phytoplasmas from native grasses to Napier grass, are present in the region. / PhD (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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LOGISTIKTEORIER FÖR LAGERFUNKTIONER OCH LAGERSTYRNINGSMETODER INOM MJÖLKPRODUKTION / LOGISTICS THEORIES ABOUT INVENTORY FUNCTIONS AND INVENTORY MANAGEMENT METHODS WITHIN DAIRY PRODUCTIONLarsson, Ida, Lagerborg, Erik January 2016 (has links)
The purpose of the report was to enhance the understanding of logistics within dairy production by investigating if theories of logistics concerning inventory functions and inventory management methods can be applied to dairy production, and if those theories can be used to analyze the costs for materials management. The research question was: What kind of inventory functions and inventory management methods are used within dairy production? The objective of the report was formulated as: To investigate if logistics theories concerning materials management can be used to analyze the costs of fodder inventory? Theories concerning inventory functions and inventory management where collected. To see if these theories could be applied to dairy production four interviews were conducted with different dairy production producers. From those four, two were selected for further research. At those two producers more interviews were held and the authors complemented the interviews with document studies. The gathered data where calculated and analyzed. Both inventory functions and inventory management methods were identified and therefore a cost analysis of the warehouse could be made. The findings of the report shows that it is possible to use the theories presented and that they should be used to develop dairy production.
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Ecology and conservation of breeding lapwings in upland grassland systems : effects of agricultural management and soil propertiesMcCallum, Heather M. January 2012 (has links)
Agriculture is the principal land use throughout Europe and agricultural intensification has been implicated in large reductions in biodiversity, with the negative effects on birds particularly well documented. The lapwing (Vanellus vanellus) is one such species where changes in farming practices has reduced the suitability and quality of breeding habitat, leading to a drop in population size that has been so severe as to warrant its addition to the Red List of Birds of Conservation Concern in the UK. Lowland areas, where agricultural intensification has generally been most pronounced, have been worst affected, however, more recently declines in marginal upland areas, previously considered refuges for breeding wader populations, have been identified. An upland livestock farm in Stirlingshire that uses an in-bye system of fodder crop management and has unusually high densities of breeding lapwings provides a basis for this project to test causal hypotheses for the decline of upland lapwing populations and to identify potential conservation management solutions. Specifically this farm plants a forage brassica in an in-bye field for two consecutive years, followed by reseeding with grass and seven, out of sixteen, in-bye fields have undergone this regime at the study site since 1997. Fields that had undergone fodder crop management supported almost 60% more lapwings than comparable fields that had not previously been planted with the fodder crop. Lapwing density was highest in the year after the fodder crop was planted, once it had been grazed, which results in a high percentage of bare ground, likely to be attractive to nesting lapwings. Lapwing densities remained above that which occurred in fields that had not undergone fodder crop management for a further four years after the field had been returned to grass. The effect of management on lapwing food resources and nesting structure was tested through a field experiment; liming increased the abundance of Allolobophora chlorotica, an earthworm species that was associated with chick foraging location at the study site, suggesting that lapwings may benefit from liming conducted as part of fodder crop management. The relationship between lapwings and soil pH is further explored across 89 sites on mainland Scotland, using soil property data to improve the predictive power of habitat association models, something which has not previously been done for any farmland bird. Adding soil and topographical data to habitat models, based on established relationships between breeding lapwings and their habitat, improved model fit by almost 60%, indicating that soil properties influence the distribution of this species. The density of breeding lapwings was highest at higher altitude sites, but only when the soil was relatively less peaty and less acidic, providing further support for the hypothesis that agricultural liming benefits lapwings. In addition to assessing the conservation benefit of fodder crop management, the economic costs are also considered. Fodder crop management provides a source of livestock fodder in the autumn and winter during a period when forage demands outstrip grass growth, and ultimately improves the grazing quality of the grass that is replaced; this system currently operates outside of any agri-environment scheme (AES). However, at the study site, planting of the fodder crop and grass is delayed to avoid agriculture operations during the breeding season, which reduces yield and hence profitability. An initial estimate of £200 ha-1 is suggested as an incentive to encourage wider adoption of fodder crop management in a “lapwing friendly” manner, although further work is required to determine if this payment level is appropriate and the current method of AES implementation may limit the suitability of fodder crop management as an AES. The results indicate that agricultural liming could benefit breeding lapwings in pasture fields where soil pH falls below pH 5.2, by increasing earthworm abundance. Where soil pH is below pH 5.2, liming should provide a cost effective mechanism for farmers to improve grass yields. Regular soil testing and liming in response to low pH, within improved or semi-improved grassland fields, where management activities such as use of nitrogen fertiliser can contribute to soil acidification, should be advocated to farmers in marginal areas as a mechanism for improving grass productivity whilst potentially benefitting breeding lapwing and other species where earthworms contribute significantly to their diet.
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An optimization study of integrated agriculture production systems for meeting household food, fodder and fuel demands : a case study in the dryland region of IndiaRalevic, Peter 25 June 2008 (has links)
For the nearly 70% of India’s population of 1.2 billion who reside in rural villages,
agriculture is often the primary source of income, as well as of food, fodder and fuel. Rural agricultural systems are recognized as complex mixed-cropping-livestock systems, whereby primary and secondary products from one component of the system are used in another. For instance, primary products such as grain and milk from livestock can be used for human consumption, while secondary products such as crop residues can be used as fodder or fuel, while manure finds use as fertilizer. Variations in cropping pattern and intensity will determine the production potential of food, fodder and fuel within a region. As limiting factors, land area and
yield must also be considered in agricultural planning activities. The present research aims to develop a rational method for crop selection within a particular agro-ecoregion. An optimization
model is constructed to optimize for selected parameters that are set to maintain defined basic minimum standards for human nutritional and livestock fodder demands.
An agricultural survey was carried out in 2007 for three villages in Karnataka State,
India. All three villages were located within the dryland agro-ecozone, where crop yields are relatively low. The survey was stratified according to household landholding area ranging from
marginal (0-1 ha) to large (>4 ha). Information was solicited on the demographic indicators of the population, the cropping cycle and cropping varieties used within the regions, and certain livestock parameters were gathered. Various demands, such as human food energy and protein requirements as well as fodder, and constraints, such as land area, were modeled to determine the
potential for food, fodder and fuel production under optimal cropping pattern. The linear programming software, What’sBest, Version 9.0 from LINDO systems, was used to solve the optimization model.
Results indicate that the current export-driven cropping pattern produces inadequate food to satisfy human nutritional demands at the village level, particularly among marginal and small households, who produce in the range of only 10 and 50 % of required food energy and protein, respectively, on a household basis. The current cropping pattern is also inadequate to satisfy
village-wide livestock fodder demand, especially in villages heavily centered on cash crops,wherein only 30-40 % of fodder demand can be accounted for.
On an individual household level, it is determined that a minimum 0.8 ha of land area is required to satisfy both food and fodder demands, placing strain on marginal households, who own less then 1 ha of land. The optimization model also demonstrates that it is possible to produce adequate food and fodder for both human and livestock consumption within the land area available in all the villages, if between 30-60% of land area is cultivated with food-based crops
used for village wide consumption. This would require diversion of between 50 and 90 % of current land area under oilseeds and commercial crops to cereal based crops. In villages that cultivate sufficient proportion of cereal and pulse based food crops, as little as 4 % diversion of
crops towards cereals may be necessary. Results also indicate that double cropping systems can generate crop residues sufficient to provide fuel for generation of 2.6-11.3 kWh/hh/day of electricity, adequate for cooking and lighting; this could be done at the same time as providing enough primary product to satisfy food and fodder needs. / Thesis (Master, Environmental Studies) -- Queen's University, 2008-06-24 16:12:50.1
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Nutrient cycling in grazing systems.Kahsay, Anwar Brhanu. January 2004 (has links)
This research was conducted at the University of KwaZulu-Natal, Pietermaritzburg, South
Africa. The research encompasses five different studies to assess nutrient cycling in intensive
and extensive grazing systems with a view to optimising livestock production.
The first study was designed to assess the effect of teff-lucerne mixtures on teff, lucerne and
teff-lucerne mixture yields. Lucerne and teff-lucerne mixtures benefited from the association.
The overall soil N content of the teff-lucerne mixture plots was greater than the teff alone
plots.
The second study focused on teff-leucaena association evaluation. It had two leucaena plant
row spacings as treatments, 180cm and 120cm, respectively. Teff grown in mixture with
leucaena produced a total teff dry matter (DM) of 7931.57 kg ha¯¹ for the 180cm row spacing
and 8329.57 for the 120cm row spacing compared to the 3548.93 kg ha¯¹ of DM obtained
from the teff alone treatment. The teff-Ieucaena stand also had a greater DM yield response to
leucaena row spacing compared to the teff alone. In terms of nutritive quality, all stands from
the teff-leucaena plots were better than the quality obtained from the teff alone plots. Total N
content of teff from the l80cm row spacing was 21.83 g kg¯¹ and that from the 120cm 16.07 g
kg¯¹ compared to the total nitrogen (N) content of 19.77 g kg¯¹ of the teff alone treatment. The
total phosphorus (P) content was 2.73, 1.96 and 2.07 g kg¯¹ for the 180cm, 120cm and teff
alone treatments respectively. However, the total soil N content was higher for the teff alone
plot than for the teff-leucaena plots, which are 1.91, 1.48 and 100 g kg¯¹ for the teff alone,
180cm and 120cm treatments respectively.
The third study was designed to assess the effects of different N fertilizer application rates on
teff yield response. The rates applied were 0, 50, 100 and 150 kg N ha¯¹. There was significant
difference in teff response of the three N fertilizer application rates compared to the control
and teff DM yield response was lower for the 150 kg N ha¯¹ (838 kg ha¯¹) treatment compared
to the control (553 kg ha¯¹).
Both teff DM and nutritive value were higher in the plots treated
with N fertilizer than in the plot which received no N fertilizer (control). The soil N content
was also higher in those plots treated with N fertilizer. Study four was conducted on the Department of Grassland Science's grassland management
techniques trial field at Ukulinga. The effects of nutrient cycling under different management
techniques such as burning, mowing and grazing on grass yield response, plant quality and
soil nutrients were assessed. However, the response of grass DM yield and P content was not
significant but the three treatments had a significant effect on grass N content. Their effect on
soil N content was also significant and the grazing plot had the greatest soil N levels.
The last study was conducted in the rural areas of Okhombe and Zwelitsha to assess the
effects of grazing intensity on grass yield response, plant quality and soil nutrient status at
different distances from homesteads. Grass DM yield and nutritive value declined when
distance from the homestead increased. The soil N content also was higher nearer to the
homestead than further away.
Most farmers, particularly in developing countries including those in Eritrea, often experience
that their animals prefer forages from some plants such as lucerne, leucaena, and other
indigenous leguminous plants. They also observe that they get greater yield from crops grown
near leguminous plants or in rotation with legumes. They are also still using manure from
their animals to fertilize their croplands. Therefore, it is still the duty of the researchers to
demonstrate to farmers on farm studies to convince farmers that it is because leguminous
plants have the ability to add quality and quantity to the feed of the animals and soil nutrients
to the croplands. Hopefully, this study will convey to farmers the use of growing integrated
grassllegume pastures and crops, and illustrate that livestock have their own role in
transporting nutrients and hence use them as good means of distributors of soil nutrients. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.
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