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121	Valorisation agronomique des sédiments fins de retenues hydroélectriques en construction d’Anthroposols fertiles / Agronomic valuation of fine sediments from hydroelectric reservoirs under construction of fertile anthroposols Fourvel, Gaetan 12 March 2018 (has links) Les sédiments fins qui s’accumulent naturellement en amont des ouvrages hydroélectriques sont parfois amenées à être gérés à terre, pour des raisons techniques ou environnementales. L’une des voies de valorisation envisagée pour les gérer est la construction de sols fertiles pour l’aménagement d’espaces végétalisés ou encore pour la réhabilitation de zones dégradées. Cet usage des sédiments en tant que matériaux alternatifs pour construire des sols contribue à préserver la ressource en terre végétale et nécessite de prouver la valeur agronomique et l’innocuité environnementale des sédiments. Une approche expérimentale (essai sous serre de 3 mois et essai in situ en bacs lysimétriques de 24 mois) a permis d’évaluer les composantes physiques, chimiques et biologiques de la fertilité de sols construits à partir de 6 sédiments, seuls ou mélangés avec 40 % (v:v) de compost de déchets verts.Les résultats de l’étude ont mis en évidence que la capacité d’agrégation des sédiments est un facteur clé de leur fertilité. Le suivi du développement de la couverture végétale des sols construits a démontré la capacité de tous les sédiments étudiés à être support de végétation. Les sédiments riches en matière organique (MO) (>30 g kg-1) sont adaptés aux végétaux des espaces végétalisés ayant potentiellement des exigences hydriques et trophiques élevées. Les sédiments pauvres en MO (<30 g kg-1), semblent davantage adaptés à une utilisation pour des opérations de restauration où les exigences des végétaux sont généralement moindres. Ce travail aboutit à la proposition de critères environneme / Fine sediments naturally accumulate upstream of hydropower facilities. For technical or environmental reasons, they occasionally have to be dredged and land managed. Using dredged sediment to construct fertile soils and set up green spaces or rehabilitate degraded land is one the ways dredged sediment can be valorized. This use of sediment as an alternative soil-building material helps preserve the topsoil resource, but its agronomical value and environmental safety first has to be demonstrated. We used an experimental approach (a 3-month greenhouse trial and a 24-month in situ lysimeter test) to assess the physical, chemical, and biological parameters of soil fertility from 6 sediments that were either pure or mixed with 40 % (v:v) of green waste compost.The results showed that sediment aggregation capacity is a key factor of their fertility. The monitoring of vegetation cover development on the constructed soil demonstrated that all six sediments could support vegetation. High organic matter (OM) content sediments (> 30 g kg-1) are suitable to grow plants with potentially high water and nutrient requirements. Low OM content sediments (< 30 g kg-1) appear to be more suitable for use in restoration operations where plant requirements are generally lower. This work leads to the proposal of environmental and agronomical criteria for directing sediments towards soil construction and propose adapted uses. Génie pédologique Qualité agronomique Structure du sol Ray grass Compost Construction de sol Restauration Espace vert Terre végétale Technosol Soil engineering Agronomical quality Soil structure Ryegrass Green waste compost Soil construction Land reclamation Green space Topsoil Technosol Technogenic material
122	Plant breeding aspects of ryegrasses (Lolium sp.) infected with endophytic fungi Stewart, Alan V. January 1987 (has links) Some aspects of the presence of systemic endophytic fungi in agriculturally important New Zealand grasses were studied in relation to plant breeding. Seedling resistance to adult Argentine stem weevil feeding in perennial ryegrass, Italian ryegrass and tall fescue was found to be related to the presence of their respective Acremonium endophytes in the seed rather than to plant genetic resistance. In addition a study of perennial ryegrass revealed that this resistance was independent of endophyte viability. The seedling resistance conferred by the endophyte of Italian ryegrass was found to be beneficial for field establishment. This endophyte differs from that in perennial ryegrass and tall fescue in that it does not confer resistance to Argentine stem weevil on mature plants, but only on seedlings. The extent of plant genetic seedling tolerance to adult Argentine stem weevil feeding was limited to broad inter-specific differences, with tall fescue more tolerant than perennial ryegrass and both of these more tolerant than Italian ryegrass. This ranking corresponds with previous observations on feeding preference on mature plants. A study of factors affecting the concentration of endophyte mycelia in infected seed of perennial ryegrass revealed that plant genetic factors had little effect. The major factors studied were: 1) the endophyte concentration in the maternal parent plant directly influenced the endophyte concentration in the seed. 2) nitrogen fertilizer applications to a seed crop reduced the concentration of mycelia in the seed, with earlier applications having a greater effect. 3) application of the fungicide propiconazole (Tilt) to a seed crop reduced the endophyte concentration in the seed. 4) the endophyte concentration in the seed was found to directly influence the endophyte concentration in seedlings, six month old plants and that of seed harvested from a first year seed crop. As there have been no previous reports of tetraploid perennial ryegrass cultivars with endophyte an experiment was conducted to determine if these could be developed by the standard procedure of colchicine treatment. The results revealed that endophyte was retained following colchicine treatment. ryegrass Lolium endophyte Acremonium seedling resistance nitrogen fungicide tetraploid Argentine stem weevil Listronotus
123	Plant bacterial inoculants to remediate hydrocarbon contaminated soil Fernet, Jennifer Lynne 20 February 2008 The hypothesis for this study was that phenanthrene degrading bacterial inoculants, in combination with grass species able to tolerate petroleum hydrocarbon contamination, will result in increased degradation, as compared to natural rates of hydrocarbon degradation, or to rates of degradation attributed to bacteria or plants alone. Three experiments were performed to examine this hypothesis: i) assessment of the effect of phenanthrene degrading bacteria (<i>Sphingomonas yanoikuyae</i>, <i>Rahnella aquatilis</i>, and <i>Arthrobacter globiformis</i>) on seed germination, location of attachment on seeds and roots, and inoculant survival on selected grass species, ii) determination of the inoculant survival in contaminated soil in the absence of plants and the ability to degrade target compounds, and iii) degradation potential and survival of selected grass species and bacterial inoculants in soil. In general, all applied inoculants were able to effectively colonize the seeds and had a neutral or positive effect on seed germination and seedling growth. Possible plant and bacteria pairs were chosen based on positive influence of the inoculant and are as follows: perennial ryegrass (<i>Lolium perenne</i>) or creeping red fescue (<i>Festuca rubra</i>) with <i>A. globiformis</i> or <i>S. yanoikuyae</i>, or slender wheatgrass (<i>Elymus trachycaulus</i>) with <i>A. globiformis</i> or <i>R. aquatilis</i>. Soil-based assessment of the survival and degradation of hydrocarbons by the selected inoculants was examined with or without a manure nutrient amendment. The addition of the inoculants had a positive impact on the efficacy of hydrocarbon removal in the soil. The manure-amended soil, or <i>A. globiformis</i> inoculated non-amended soil treatments reduced total petroleum hydrocarbon concentration by ~45%, whereas the non-amended control only resulted in a ~20% reduction. When soils were amended with manure and inoculated with any of the phenanthrene degrading bacteria, contaminant concentration decreased in soil by ~33%. <i>Sphingomonas yanoikuyae</i> survived the longest in soil in the absence of plants. A growth chamber experiment was conducted to determine the efficacy of plant and bacteria pairs for hydrocarbon removal in recalcitrant contamination found in soil from Bruderheim, Alberta. Additional replicates containing this soil were spiked with hexadecane, phenanthrene, and pyrene so the effectiveness of the plant and bacteria pairs at higher levels of fresh contamination could be assessed. In the spiked treatment, inoculation with <i>S. yanoikuyae</i> increased creeping red fescue root biomass. In the non-spiked treatment, <i>S. yanoikuyae</i> application increased creeping red fescue root and shoot biomass. Perennial ryegrass root and shoot biomass did not increase when inoculated with <i>S. yanoikuyae</i>, although root biomass values were observably higher in non-spiked soils. Creeping red fescue inoculated with <i>S. yanoikuyae</i> resulted in the greatest decrease in hydrocarbon concentration as compared to other treatments (~61%). The perennial ryegrass treatment, when inoculated with <i>S. yanoikuyae</i> increased percent hydrocarbon removal (~10%) above that obtained with perennial ryegrass alone. The addition of plants and <i>S. yanoikuyae</i> increased hydrocarbon degradation relative to control soils, although the addition of vegetation alone had a comparable effect. A critical benefit of inoculation was the increase in creeping red fescue root biomass at higher concentrations of contamination. This is important because the larger the root biomass the larger the volume of soil that can be remediated. The results indicate that the use of specific plant-bacterial inoculants can enhance remediation of hydrocarbon contaminated soils. creeping red fescue phytoremediation bioremediation PAH plant-bacterial inoculant perennial ryegrass contaminated soil <i>Sphingomonas</i> <i>Arthrobacter</i> <i>Rahnella</i>
124	Plant bacterial inoculants to remediate hydrocarbon contaminated soil Fernet, Jennifer Lynne 20 February 2008 (has links) The hypothesis for this study was that phenanthrene degrading bacterial inoculants, in combination with grass species able to tolerate petroleum hydrocarbon contamination, will result in increased degradation, as compared to natural rates of hydrocarbon degradation, or to rates of degradation attributed to bacteria or plants alone. Three experiments were performed to examine this hypothesis: i) assessment of the effect of phenanthrene degrading bacteria (<i>Sphingomonas yanoikuyae</i>, <i>Rahnella aquatilis</i>, and <i>Arthrobacter globiformis</i>) on seed germination, location of attachment on seeds and roots, and inoculant survival on selected grass species, ii) determination of the inoculant survival in contaminated soil in the absence of plants and the ability to degrade target compounds, and iii) degradation potential and survival of selected grass species and bacterial inoculants in soil. In general, all applied inoculants were able to effectively colonize the seeds and had a neutral or positive effect on seed germination and seedling growth. Possible plant and bacteria pairs were chosen based on positive influence of the inoculant and are as follows: perennial ryegrass (<i>Lolium perenne</i>) or creeping red fescue (<i>Festuca rubra</i>) with <i>A. globiformis</i> or <i>S. yanoikuyae</i>, or slender wheatgrass (<i>Elymus trachycaulus</i>) with <i>A. globiformis</i> or <i>R. aquatilis</i>. Soil-based assessment of the survival and degradation of hydrocarbons by the selected inoculants was examined with or without a manure nutrient amendment. The addition of the inoculants had a positive impact on the efficacy of hydrocarbon removal in the soil. The manure-amended soil, or <i>A. globiformis</i> inoculated non-amended soil treatments reduced total petroleum hydrocarbon concentration by ~45%, whereas the non-amended control only resulted in a ~20% reduction. When soils were amended with manure and inoculated with any of the phenanthrene degrading bacteria, contaminant concentration decreased in soil by ~33%. <i>Sphingomonas yanoikuyae</i> survived the longest in soil in the absence of plants. A growth chamber experiment was conducted to determine the efficacy of plant and bacteria pairs for hydrocarbon removal in recalcitrant contamination found in soil from Bruderheim, Alberta. Additional replicates containing this soil were spiked with hexadecane, phenanthrene, and pyrene so the effectiveness of the plant and bacteria pairs at higher levels of fresh contamination could be assessed. In the spiked treatment, inoculation with <i>S. yanoikuyae</i> increased creeping red fescue root biomass. In the non-spiked treatment, <i>S. yanoikuyae</i> application increased creeping red fescue root and shoot biomass. Perennial ryegrass root and shoot biomass did not increase when inoculated with <i>S. yanoikuyae</i>, although root biomass values were observably higher in non-spiked soils. Creeping red fescue inoculated with <i>S. yanoikuyae</i> resulted in the greatest decrease in hydrocarbon concentration as compared to other treatments (~61%). The perennial ryegrass treatment, when inoculated with <i>S. yanoikuyae</i> increased percent hydrocarbon removal (~10%) above that obtained with perennial ryegrass alone. The addition of plants and <i>S. yanoikuyae</i> increased hydrocarbon degradation relative to control soils, although the addition of vegetation alone had a comparable effect. A critical benefit of inoculation was the increase in creeping red fescue root biomass at higher concentrations of contamination. This is important because the larger the root biomass the larger the volume of soil that can be remediated. The results indicate that the use of specific plant-bacterial inoculants can enhance remediation of hydrocarbon contaminated soils. creeping red fescue phytoremediation bioremediation PAH plant-bacterial inoculant perennial ryegrass contaminated soil <i>Sphingomonas</i> <i>Arthrobacter</i> <i>Rahnella</i>
125	Mixed grazing of sheep and cattle using continuous or rotational stocking Kitessa, Soressa Mererra January 1997 (has links) Two consecutive experiments were conducted to test a hypothesis that mixed grazing outcome is influenced by the type of stocking system applied. The objective of both experiments was to investigate the influence of co-grazing with sheep on cattle liveweight gain (LWG) under continuous (C) and rotational (R) stocking, where sheep weekly liveweight change under the two stocking systems was kept similar. In experiment I nine yearling heifers (266 ± 4.5 kg liveweight) and 27 ewe hoggets (54±0.9 kg liveweight) were continuously stocked for 19 weeks on an irrigated perennial ryegrass-white clover pasture (2.95 ha) maintained at a sward surface height (SSH) of 5cm by adding or removing additional animals in a fixed ratio (1: 1 W⁰.⁷⁵ cattle:sheep). An equal area of pasture was rotationally stocked by a similar group of animals where they received a new area of pasture daily and also had access to the grazed area over the previous 2 days. The size of the new area provided daily was such that the weekly liveweight change of rotationally co-grazed sheep was equal to that of those continuously co-grazed with cattle. Similar groups of animals were used in the second experiment with additional group of 9 heifers grazed alone on C and R pastures. Liveweight of animals was recorded weekly and final fasted weight was determined after 24-hour total feed restriction. SSH on both treatment swards was recorded daily. There were three intake measurement periods spread over the trial period. Organic matter intake (OMI) was predicted from the ratio of N-alkanes in faeces and herbage. Diet composition was determined by dissecting oesophageal extrusa samples. Grazing behaviour (bite rates and grazing time) were also recorded. The mean SSH for C pasture was 5.1±0.09 cm. Overall pre- and post-grazing SSH for R pasture was 15.9 ±0.12 and 5.6 ±0.07 cm, respectively. As determined by the protocol average daily LWG of sheep was similar between C and R (147 (±5.8) vs 138 (±6.7) g day⁻¹; (P>0.05). In contrast, cattle continuously stocked with sheep grew 200 g day⁻¹ slower than those rotationally stocked with sheep (800 (±41.6) vs 1040 (±47.7) g day⁻¹, P<0.0l). R heifers achieved 30 kg higher final fasted liveweight than C heifers (350 vs 381 kg; P<0.01). Overall LWG per ha was also 6 % higher under R than C stocking (674 vs 634 kg ha⁻¹). The OMD of both sheep (73.5 vs 75.8 %) and cattle (75.8 vs 78.0 %) diets was similar under continuous and rotational stocking. There was no significant difference OMI data also concurred with the L WG data (Cattle: 7.94 vs 6.31 (±0.32) kg day⁻¹ (P<0.05); sheep: 1.40 vs 1.44 (±0.04) kg day⁻¹ for Rand C treatments, respectively). There was no difference in clover content of cattle diet under C and R treatments. C heifers had higher number of bites per minute than R heifers (62 vs 56; P<0.05). Proportion of heifers seen grazing (every 15-minute) during four 24-hour observations was greater on C than R pasture (0.44 vs 0.31 (±0.03); P<0.05). The similarity coefficient between sheep and cattle diet was 0.61 and 0.76 under C and R stocking, respectively. The lower daily LWG of C heifers was attributed to (a) the lower SSH under C than R stocking and/or (b) the inability of cattle to compete well with sheep where there is small, continual renewal of resources (C) in contrast to a large periodic renewal under R stocking. This experiment showed that the outcome of mixed gruing can be influenced by the stocking system chosen. But it was not possible to apportion the difference in LWG of cattle between mixed grazing per se and the difference in mean grazed sward height (5.1 for C vs 10.8 cm for R). A second experiment was conducted to determine the relative performance of cattle co-grazed with sheep (CS) and grazed alone (CA) under each stocking system. Hence, there were four treatments. CA- continuous stocking (CA-C), CS- continuous stocking (CS-C), CA- rotational stocking (CAR) and CS- rotational stocking (CS-R). A total area of 4.42 ha was allocated to each stocking system. Under C stocking, 2.95 ha (2/3) was assigned to CS-C and 1.47 ha (1/3) to CA-C, and SSH on both treatments was kept at 4 cm by adding or removing extra animals. Under R stocking, CA-R and CS-R grazed side by side separated by an electric fence. They were given a fresh area daily, the size of which was varied such that the weekly LW change of R sheep was equal to that of the C sheep. CA-R received one-third of the new area though the size was adjusted regularly to achieve the same post-grazing SSH with CS-R. Measurements included: weekly liveweight change, OMI (two periods) and diet composition (using N-alkanes). The mean SSH of CA-C and CS-C swards was 4.27 and 4.26 (±0.02) cm, respectively. CA-R and CS-R swards had mean pre-grazing SSH of 14.9 and 15.2 (±0.08) cm and post-grazing heights of 4.87 and 4.82 cm (±0.03), respectively. The proportion of areas infrequently grazed was higher for CA-C than CS-C swards (0.22 vs 0.17, respectively). C and R sheep daily LWG: 155 (±0.6) and 147 (±0.7) g, and OMI: 1.96 and 2.04 (±0.ll) kg, respectively, were not significantly different. They also had similar diet composition. In comparison, CS-C heifers grew only at 69 % of the daily LWG achieved by CS-R heifers (706 vs 1028 (±72) g; P<0.05). LWG of CA-C and CA-R was 916 and 1022 (±72) g day⁻¹, respectively. The difference in LWG between CS-R and CS-C (D₁) heifers was due to difference in mean sward height, stocking system and mixed grazing, while D₂ (difference in LWG between CA-R and CAC) was due to difference in mean sward height and stocking system. D₁-D₂ (the effect of stocking system on mixed grazing) was 216 g and made up 67 % of the total difference between CS-R and CS-C. There was a significant stocking system-species mixture interaction in the final fasted LW achieved by heifers. Final fasted LW was significantly lower for CS-C than CA-C heifers (283 vs 323 (±9.7) kg), but did not differ between CS-R and CA-R (332 vs 330 (±9.7) kg, respectively). The digestibility of diet OM was similar for both continuously and rotationally stocked sheep (84.4 vs 83.2 %, respectively). Cattle diet OMO was 76.5, 74.7, 79.4 and 77.8 for CA-C, CS-C, CA-R and CS-R respectively (P>0.05). Differences in OMI followed a similar pattern to daily LWG. Mean daily OMI was 8.98, 6.24, 8.80 and 9.45 (±0.40) kg for CA-C, CS-C, CA-R and CS-R, respectively. Clover content of the diet of CA-C heifers was three times higher than that of CS-C heifers (30.7 vs 10.4 % OM; P<0.05); there was no difference in clover content of diets of CS-R and CA-R heifers (21.5 vs 23.9 % OM, respectively). In both stocking systems LWG per ha was higher on CA than CS treatments. These results suggested that the disadvantage of selective clover grazing by sheep outweighed the advantages of sheep grazing around cattle dung patches under continuous stocking. Under rotational stocking, rapid diurnal changes in sward conditions probably limited selective grazing by both sheep and cattle such that there was no disadvantage to CS cattle. The results do not provide a basis for recommending grazing cattle with sheep rather than cattle alone, but do provide some basis for recommending co-grazing of sheep and cattle using rotational rather than continuous stocking. cattle continuous stocking diet composition frequently grazed areas grazing behaviour infrequently grazed areas intake liveweight gain mixed grazing N-alkanes perennial ryegrass rotational stocking sheep stocking system sward surface height white clover 070203 - Animal Management 070202 - Animal Growth and Development
126	Intoxicação espontânea e experimental por nitrato/nitrito em bovinos alimentados com Avena sativa (aveia) e/ou Lolium spp. (azevém) / Spontanious and experimental porsoning by nitrate/nitrite in cattle fed by Avena sativa (oat) and/or Lolium spp (ryegrass) Jonck, Fernanda 26 November 2010 (has links) Made available in DSpace on 2016-12-08T16:24:10Z (GMT). No. of bitstreams: 1 PGCA10MA084.pdf: 10543370 bytes, checksum: c4278e36095798e986451ebb91edcf8f (MD5) Previous issue date: 2010-11-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Epidemiological data, clinical and pathological findings of the spontaneous and experimental poisoning by nitrate and nitrite in cattle fed by oats (Avena sativa) and ryegrass (Lolium spp), diphenylamine test, and the nitrate content in the samples of the pasture where the outbreaks occurred are described. The disease occurs in different regions of the state of Santa Catarina, in which pastures have exuberant growth, after receiving excessive amounts of chemical and/or organic fertilizer, mainly when raining occurs after a period of dry wheather. The animals grazing these pastures quickly developed brown mucosa, tachypnea, staggering gait, frequent urination, bloating, lateral recumbency and death in few minutes or hours. At necropsy of four animals that died spontaneously, the main lesions found were brown mucosa, dark color of the blood (chocolate), intense red color of the skeletal muscles and of the left part of the myocardium. The experimental reproduction of the disease was performed in seven cattles, with pastures of four farms where the disease occurred. The animals were fed with fresh and hay oats and ryegrass. Four animals died, two became ill and recovered, and one was treated with 2 mg / kg per body weight methylene blue 1%, and one cattle did not show changes. Clinical signs and lesions of the sickened and died animals were similar to natural cases. Microscopic changes were not observed in spontaneous and experimental poisoning. The diphenylamine test was positive in all the farms where the outbreaks occurred. The chemical analysis performed on samples of pasture from several farms in which outbreaks of the disease occured ranged from 0.30% to 3.36% of nitrate in the dry matter. The disease is associated with the ingestion of oats and ryegrass pastures heavily fertilizer, which accumulates high levels of nitrate after a period of rain and is characterized by rapid breathing, dark-colored blood, brown mucous and rapid death / Descrevem-se os dados epidemiológicos, sinais clínicos e lesões da intoxicação espontânea e experimental por nitrato e nitrito em bovinos que pastoreiam em pastagens de aveia (Avena sativa) e azevém (Lolium spp), o teste da Difenilamina e os teores de nitrato nas amostras de pastagens onde ocorreram os surtos. A enfermidade ocorre em diferentes regiões do estado de Santa Catarina, quando as pastagens tem crescimento exuberante, após receberem quantidades excessivas de adubo químico e/ou orgânico, principalmente quando ocorrem condições climáticas de seca e posteriormente chuva. Os animais em contato com essas pastagens desenvolveram rapidamente mucosas de coloração marrom, taquipnéia, andar cambaleante, micção frequente, timpanismo, decúbito lateral e morte em poucos minutos, ou recuperação algumas horas após. Na necropsia de quatro animais que adoeceram espontaneamente, as principais lesões encontradas foram a coloração marrom das mucosas, a cor escura do sangue (cor de chocolate) e a coloração vermelho intensa da musculatura esquelética e do miocárdio esquerdo. A reprodução experimental da doença foi realizada em sete bovinos, com pastagens de quatro propriedades onde ocorreu a doença. Aveia e azevém verdes e sob a forma de feno foram administradas aos bovinos, destes quatro morreram, dois adoeceram e recuperam-se, um naturalmente e outro com a aplicação de azul de metileno a 1%, na dose de 2 mg/kg/peso vivo, e um bovino não apresentou alterações. Os sinais clínicos observados e lesões dos animais que adoeceram e morreram foram idênticos aos casos naturais. Alterações microscópicas não foram observadas nos casos naturais e experimentais. O teste da difenilamina resultou positivo em todas as propriedades em que ocorreram os surtos. A análise bromatológica realizada em amostras coletadas de várias propriedades em que ocorreram surtos da enfermidade variaram de 0,30% a 3,36% de nitrato na matéria seca. A enfermidade caracterizou-se principalmente por respiração ofegante, sangue de coloração escura, mucosas de coloração marrom e morte rápida de bovinos e está relacionada á ingestão de pastagens de aveia e azevém superadubadas, que acumularam alto teor de nitrato, após um período de chuvas precedido de seca nitrato/nitrito metemoglobinemia aveia (Avena sativa) azevém (Lolium spp) azul de Metileno teste da Difenilamina nitrate/nitrite methahemoglobinaemia oat (Avena sativa) ryegrass (Lolium spp) methylene blue dyphenilamine test
127	RECRIA DE FÊMEAS DE CORTE PARA ACASALAMENTO AOS 18 MESES DE IDADE / REARING BEEF FEMALE TO BREEDING AT 18 MONTHS OF AGE Macari, Stefani 13 December 2005 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / It was evaluated the performance of beef heifers on grazing receiving different levels of supplement: 0,0; 0,3; 0,6 and 0,9% of live weight (LW), in black oats (Avena strigosa Schreb.) plus Italian ryegrass (Lolium multiflorum Lam.) pasture and exclusively in natural pasture engaged by Annoni grass (Eragrostis planna Nees) after the end of the cycle of these forages. On cultivated pasture it was evaluated the botanic composition and the diurnal ingestive behavior of beef heifers. The supplement utilized was a commercial ration (14% CP; 18,8% NDF; 78,2% TDN) daily supplied at 2 pm. The studied variables were the average daily gain (ADG), body condition (BC), stocking rate (SR), weight gain per area (WGA), total forage on offer (TFO), height, live weight:height relation at 12 and 18 month of age and efficiency of transformation of forage in animal product. On the diurnal ingestive behavior were determined: grazing time, rumination, idle, trough permanence, biting rate and bite weight, in four dates. In cultivated pasture the ADG did not differ between animals that received different levels of supplement and it was bigger to supplemented animals. At 12 month of age the BC, SR, WGA, TFO and height of the animals did not differ between the supplement levels. On supplemented animals it was necessary 8.8 kg of DM of grass to produce 1 kg of live weight. The supply of supplement for heifers in grazing of oats and ryegrass interfere in a positive way on life weight, body condition and life weight: height relation of these animals at 18 months of age. The supplement levels affected partially the diurnal ingestive behavior of animals, reducing grazing time, increasing idle time, interfering on trough permanence time, biting rate and bite weight (P<0.05). The rumination time was not affected by supplement levels (P>0.05). The botanic and structural composition of pasture is influenced by supplement levels utilized and it is related with the cycle of forages production (P>0.05). / Foi avaliado o desempenho de bezerras de corte em pastejo recebendo diferentes níveis de suplemento: 0,0; 0,3; 0,6 e 0,9% do peso vivo (PV), em pastagem de aveia (Avena strigosa Schreb.) mais azevém (Lolium multiflorum Lam.) e exclusivamente em campo nativo ocupado por capim Annoni (Eragrostis plana Nees), após o final do ciclo destas forrageiras. Na pastagem cultivada foi avaliada a composição botânica e o comportamento ingestivo diurno de bezerras de corte. O suplemento utilizado foi uma ração comercial (14% PB; 18,8% FDN; 78,2% NDT), fornecida diariamente às 14:00 h. As variáveis estudadas foram ganho médio diário (GMD), condição corporal (CC), carga animal (CA), produção animal por hectare (GPA), oferta de forragem total (OFT), altura, relação peso vivo:altura aos 12 e 18 meses de idade, e eficiência de transformação de Kg de forragem em produto animal. No comportamento ingestivo diurno foram determinados: tempo de pastejo, ruminação, ócio, permanência no cocho, taxa de bocada e peso de bocado, em quatro datas. Em pastagem cultivada o GMD não diferiu entre animais que receberam diferentes níveis de suplemento e foi maior para animais suplementados. Aos 12 meses de idade a CC, CA, GPA, OFT e altura dos animais não diferiram entre níveis de suplemento. Nos animais suplementados foram necessários 8,8 kg de MS do pasto para produzir 1 kg de peso vivo. O fornecimento de suplemento para novilhas em pastejo em aveia e azevém interfere de forma positiva no peso vivo, CC e relação peso vivo:altura destes animais aos 18 meses de idade. Níveis de suplemento afetaram parcialmente o comportamento ingestivo diurno dos animais, reduzindo o tempo de pastejo, aumentando o tempo de ócio, interferindo no tempo de permanência no cocho, na taxa de bocada e peso do bocado (P<0,05). Tempo de ruminação não foi afetado pelos níveis de suplemento (P>0,05). A composição botânica e estrutural da pastagem é influenciada pelos níveis de suplemento utilizados e está relacionada com o ciclo de produção das forrageiras. Aveia preta Azevém Suplementação Bezerras de corte Taxa de bocada Tempo de pastejo Tempo de cocho Composição botânia Black oats Italian ryegrass Supplementation Beef heifers Biting rate Grazing time Trough time Botanic composition CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA
128	Exploring the Effects of Cover Crop Use on Farm Profitability in Central Indiana Megan N. Hughes (8775677) 02 May 2020 (has links) Cover crop use provides a myriad of benefits to soil health. Despite strong agronomic evidence of the benefits of using cover crops, farmers have been slow to adopt cover crop systems. Surveys show that this is due to a lack of understanding on how cover crop use will impact the farm, and limited economic analysis on the effects of cover crop use on the farm. <div> In this thesis, a variable-rate nitrogen study was analyzed to determine the relationship between applied nitrogen fertilizer and corn yields, and how a cover crop treatment impacts that relationship. Data were obtained from a case farm in Central Indiana. Production information was then translated into a partial budget to see how the use of the different cover crop treatments impacted net return per acre for corn production on the farm. Net returns were analyzed using both historical corn and nitrogen prices and stochastic modelling.</div><div> Results showed that the final impact on farm net return per acre associated with adoption of a cover crop system varies among cover crop species. Implementing annual rye resulted in a negative change to net return; while cereal rye and an oats and radish blend resulted in a positive change to net return. When additional benefits of cover crop use; such as drought tolerance, carbon content, and erosion reduction; are included, all three cover crop species resulted in a substantial increase in net return. This information will be of interest to farmers as a source to draw upon when making decisions regarding their own farms. Further research is needed to fully understand the relationship between cover crop use and farm profitability, particularly for farms at the early stages of adoption.</div> Agricultural Economics Agricultural Land Management Cover Crops Net Returns partial budgets Cereal Rye Impact on Net Returns Annual Ryegrass Impact on Net Returns Variable nitrogen rate study
129	Urban Lawn Management: Addressing the Entomological, Agronomic, Economic, and Social Drivers Alumai, Alfred 05 December 2008 (has links) No description available. Ecology Entomology Endophyte infection Tall fescue Perennial ryegrass Mowing height and mowing frequency IPM lawn management Organic lawn management Insect damage Weed cover White grub density Lawn quality Lawn management cost
130	Physiological effects of drought on perennial ryegrass (Lolium perenne L.) and tall fescue (Festuca arundinacea Schreb.) Butler, Tony January 2008 (has links) The Canterbury plains are frequently exposed to summer drought and climate predictions forecast that the severity and frequency of summer drought will increase. The most commonly used pasture grass, perennial ryegrass (Lolium perenne L.), is drought sensitive. One possible method to maintain sward dry matter (DM) production under water stress is to use an alternative grass species such as tall fescue (Festuca arundinacea Schreb.). The objective of this research was to compare summer DM production of monoculture swards of perennial ryegrass and tall fescue under various seasonal drought regimes to study physiological and biochemical drought responses of each species. Data were collected over a period of two-summer seasons, Season One (2006-2007) and Season Two (2007-2008) in an automated rain shelter at Lincoln, Canterbury. Drought treatments included exposure of plants to a spring or autumn drought or a four-weekly "irrigated" drought regime. DM yields of the two species were similar under each watering regime. The control treatment, under non-limiting conditions, has the highest accumulated yield in both Season One and Two for ryegrass (17.1 and 15.7 t DM ha⁻¹) and tall fescue (18.8 and 16.0 t DM ⁻¹) respectively. Spring and autumn drought treatments were similar for the two species in accumulated yield in either season, however the exposure to drought stress returned yields lower than the control. Consistently, the lowest-yielding treatment was the four-weekly irrigated drought, which resulted in an average yield across species in Season One of 10.1 t DM ha⁻¹ and 8.35 t DM ha⁻¹ in Season Two. Growth rates of the swards were calculated using accumulated DM production against accumulated thermal time using a base temperature of 3°C for both species. The control treatments showed a strong linear relationship for both species in both seasons, though Season Two showed a period of approximately 390 °Cd of no growth. Spring growth was similar for all treatments until October when both the spring drought and four-weekly irrigated treatment deviated from the control as water stress commenced. Growth also ceased under autumn drought later in the season. The physiological drought responses between species and among treatments differed. Tall fescue under control conditions had the highest photosynthesis rates of 20.5 µmol CO₂ m⁻² s⁻¹,or 22% higher than ryegrass, whereas the four-weekly irrigated treatment showed no inter-species differences. Differences were also found for other gas exchange parameters. Physiological water use efficiency (phys WUE) in ryegrass was 15% greater than tall fescue in Season Two. Photosynthesis and gas exchange rates against leaf water potential showed declining gas flow in both species across all treatments in response to drying soil conditions and across all irrigation treatments. The osmo-protectant proline was 22% higher in concentration in ryegrass than in tall fescue in Season Two and increased in drought stressed treatments in both seasons. Water stress was found to reduce total chlorophyll concentrations in all treatments and in tall fescue, while little change occurred in the chlorophyll a:b ratio. In conclusion, the findings from this thesis suggest similar DM responses for the two species under drought. The findings suggests that tall fescue performs more as a "water user" under drought conditions, compared with perennial ryegrass, which is more a "water saver." Resonses to the changing environment to a point, before "shuttting up shop" through lower stomatal conductance. tall fescue ryegrass nutritional value water stress water relations DM production stomata thermal time relative water content photosynthesis ME N% proline osmotic adjustment Festuca arundinacea Schreb. Lolium perenne chlorophyll glucose leaf water potential transpiration

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