Nitrogen management strategies on perennial ryegrass-white clover pastures in the Western Cape Province

Labuschagne, Johan

03 1900

Thesis (PhD(Agric) (Agronomy))--University of Stellenbosch, 2005. / The response of perennial ryegrass and white clover, grown under controlled conditions, to fertiliser N rates applied under variable soil temperature (6, 12 and 18 °C), soil water potential (-10, -20, -25 and -35 kPa) and seasonal growing (June/July and October/November) conditions as well as field conditions, were evaluated. Primary- (PDM), residual- (RDM) and total dry matter (TDM) production (g pot-1) were recorded over the first- and second regrowth cycles as well as the accumulative DM production over the two regrowth cycles, respectively. Leaf N content (%) was recorded at the end of first and second regrowth cycles. Tiller/stolon numbers and root dry mass (g pot-1) were recorded at the end of the second regrowth cycle. Soil ammonium-N and nitrate-N (mg kg-1) content was monitored after fertiliser N application. Decreasing soil temperatures resulted in decreased TDM production in both crops. Only perennial ryegrass was influenced by fertiliser N rate, with a general increase in dry matter production as fertiliser N rate was increased. Ryegrass TDM production did not differ between the 100 and 150 kg N ha-1 rates but were both higher (P=0.05) if compared to the 0 and 50 kg N ha-1 treatments. Soil nitrate levels 31 days after application of 150 kg N ha–1 were still sufficient to stimulate ryegrass RDM production. The 173.8% increase in ryegrass TDM production measured at 6 °C where 150 kg N ha-1 was applied compared to the 0 kg N ha-1 treatment illustrated the ability of ryegrass to respond to fertiliser N at low soil temperatures. Soil water potential of -20 kPa resulted in higher ryegrass PDM and TDM production compared to the -25 and -35 kPa levels. White clover PDM and TDM production were however not influenced by soil water potential or fertiliser N rate. Ryegrass TDM production increased (P=0.05) as fertiliser N rates were increased. The most favourable soil water level for both ryegrass and clover root development was found to be -35 kPa. Perennial ryegrass and white clover PDM, RDM and TDM production were higher during the October/November season compared to the June/July season. Increased fertiliser N rates resulted in increased (P=0.05) ryegrass PDM and TDM production. White clover dry matter production was not influenced by fertiliser N rates. In the field study the effect of 0, 50, 100 and 150 kg N ha-1 applied as a single application either in autumn, early winter, late winter, early spring or late spring on pasture dry matter production, clover content and selected quality parameters of a perennial ryegrass-white clover pasture were investigated. Soil nitrogen dynamics in the 0-100, 200-300 and 400-500 mm soil layers were studied for 49 days following fertiliser N application. The effect of 50 kg N ha-1 on soil N dynamics was generally the same as found at the 0 kg N ha-1 applications and may therefore be regarded as a low risk treatment. The application of 150 kg N ha-1 especially in autumn and early winter showed a tendency to exceed the absorption capacity of the pasture and thereby expose fertiliser N to possible leaching and contamination of natural resources. Increased fertiliser N rate resulted in a general increase in pasture dry matter production with the highest yields recorded where N was applied in early and late spring and the lowest in early winter. The application of 150 kg N ha-1 in early and late spring resulted in the highest TDM production, however, the 50 kg N ha-1 resulted in a more efficient conversion of N applied to additional DM produced. In contrast to DM production, the clover percentage generally decreased as fertiliser N rate was increased. The effect of season of application was inconsistent. Annual trends show that the clover percentage eventually recovered to the same levels as the 0 kg N ha-1 treatments. Due to the above minimum levels recorded for most mineral and quality parameters tested it is envisaged that treatment combinations as used in this study will not be at any disadvantage to pasture and animal productivity. The study has shown that the use of fertiliser N to boost perennial ryegrass-white clover productivity and thereby minimising the negative effect of the winter gap on fodder flow management during the cool season in the Western Cape Province, may be an important management tool. Except for late spring applications, all seasons of application reduced the negative impact of the winter gap on fodder availability. It is concluded that regression lines as summarised in Tables 7.2 and 8.2 show great potential to be instrumental in developing regression models, accurately predicting the effect of fertiliser N rate on pasture performance. Other factors to be considered includes the productivity of the pasture, initial clover content, expected clover content at the end of the first regrowth cycle after fertiliser N application and the quantity of additional fodder required. Additional requirements will be to maintain and 150 kg N ha-1) in winter, as the N uptake capacity of the pasture could be exceeded and thereby increasing the risk of N leaching, resulting in environmental pollution. The N response efficiency of the pasture is also the lowest at the 150 kg N ha-1 rates, thereby reducing the profitability of these treatments.

Ryegrasses

White clover

Pastures -- Management

Pastures -- Fertilizers

Dissertations -- Agronomy

Theses -- Agronomy

Agriculture

Introdução de uma mistura de três espécies forrageiras de inverno em pastagem irrigada de capim-aruana. / Introduction of a mixture of three winter forage species in an irrigated aruanagrass pasture.

Gerdes, Luciana

13 November 2003

No Instituto de Zootecnia, Nova Odessa, SP, em uma pastagem de capim-aruana (Panicum maximum Jacq. cv. Aruana) utilizada com ovinos em sistema intensivo de produção (irrigação, adubação e lotação rotacionada), foram sobre-semeadas as espécies forrageiras de inverno: aveia preta (Avena strigosa Schreb cv. Comum), azevém anual (Lolium multiflorum Lam. cv. Comum) e trevo branco (Trifolium repens L. cv. Zapicán) com o objetivo de suprir o déficit e melhorar o valor nutritivo da forragem no período crítico do ano. A sobre-semeadura foi efetuada em 14/04/00 e 07/06/01 no primeiro e segundo anos do experimento, respectivamente. Nos dois anos (14/04/00 a 18/01/01 e 07/06/01 a 22/02/02) foram avaliados, em seis períodos de pastejo: massa total de forragem pré-pastejo, sua composição botânica e porcentagem de lâminas foliares, massa de forragem pós-pastejo, acúmulo de forragem (AF) e taxa média diária de acúmulo de forragem (TMDAF) em cada período de rebrotação, altura do dossel forrageiro pré e pós-pastejo, características químicas: proteína bruta (PB), fibra em detergente neutro (FDN), fibra em detergente ácido (FDA), lignina e digestibilidade "in vitro" da matéria seca (DIVMS), nas amostras da massa total de forragem e nas dos componentes botânicos (aruana, aveia preta e azevém) pré-pastejo. O delineamento experimental foi o de blocos completos casualizados (quatro), com duas repetições dentro do bloco e dois tratamentos: 1) capim-aruana exclusivo (AE) e 2) sobre-semeadura da mistura das três espécies forrageiras de inverno (MFI). Os blocos eram pastejados pelo mesmo lote de animais, em sequência, por dois a três dias, até atingir 10 a 15 cm. O trevo-branco não se estabeleceu em ambos os anos. No primeiro ano, a pastagem MFI apresentou maior massa total de forragem do que a pastagem AE no segundo período e na média dos seis períodos. A aveia apresentou a maior contribuição no segundo período e o azevém no terceiro. As pastagens com a MFI apresentaram maiores AF e TMDAF que as pastagens de AE no segundo, quinto e na média dos seis períodos. A PB da forragem na pastagem de capim-aruana exclusivo foi maior em relação à sobre-semeada no terceiro período de pastejo e semelhante nos demais. A PB dos componentes aveia e azevém, no terceiro período, foi menor em relação aos do primeiro e segundo. FDN, FDA e lignina da forragem no tratamento exclusivo foram mais elevados em relação aos do tratamento sobre-semeado, na média dos seis períodos. Aveia e azevém apresentaram FDN mais baixos nos períodos iniciais de crescimento, com aumento no último. A digestibilidade da forragem foi semelhante nos dois tratamentos, em todos os períodos de avaliação. No segundo ano, a massa total de forragem apresentou quantidades semelhantes entre as duas pastagens ao longo dos seis períodos e na sua média. A aveia esteve mais presente no primeiro período e o azevém no terceiro. Não houve diferença entre tipos de pastagem para AF e TMDAF em nenhum dos seis períodos, nem na sua média. Para o componente aruana a porcentagem de lâminas foi semelhante entre os dois tipos de pastagem e para a aveia e azevém, as menores porcentagens ocorreram no período final dos seus ciclos vegetativos, em ambos os anos. O teor de PB da massa total de forragem da pastagem de capim-aruana exclusivo foi maior que o da pastagem sobre-semeada, no quarto período mas semelhante nos demais e na média dos períodos. Os teores de PB da aveia e do azevém decresceram ao longo dos períodos de pastejo. Os teores de FDN, FDA, lignina e DIVMS da forragem foram semelhantes entre as duas pastagens na média e ao longo dos seis períodos, exceto para FDN no segundo período. A aveia e o azevém apresentaram os maiores teores de FDN, FDA e lignina no último período de pastejo. A DIVMS do azevém manteve-se constante nos dois primeiros períodos de pastejo diminuindo no último. Pastos de capim-aruana convenientemente adubados e irrigados, que recebam sobre-semeadura com espécies forrageiras de inverno, produzem mais forragem no período crítico mas com valor nutritivo semelhante em relação a pastos não sobre-semeados, nas condições do Estado de São Paulo. Pastos deste capim, não sobre-semeados, mas que recebam adubação e irrigação também apresentam boa produção e valor nutritivo nesta época. / At Instituto de Zootecnia, Nova Odessa, SP, in a pasture of aruanagrass (Panicum maximum Jacq. cv. Aruana), grazed by sheep in an intensive production system (irrigation, fertilization and rotational stocking), it was introduced a three winter forage species: black oat (Avena strigosa Schreb. cv. Common), italian ryegrass (Lolium multiflorum Lam. cv. Common) and white clover (Trifolium repens L. cv. Zapican) with the objective of increasing the forage supply and its nutritive value during the dry winter period. The mixture was broadcasted sown over the grass on 04-14-00 and 06-07-01 in two years of experiment. From 04-14-00 to 01-18-01 and 06-07-01 to 02-22-02 it was evaluated, in six annual grazing periods, the forage mass, its botanical composition and leaf blades percentage pre grazing, residual mass post grazing, forage accumulation (FA) and mean forage accumulation daily rate (MFADR) in each regrowth period and sward heigth pre and post grazing, the chemical characteristics: crude protein (CP), neutral detergent fiber (NDF), acid detergent fiber (ADF), lignin and in vitro dry matter digestibility (IVDMD) in the forage on offer and in its botanical components. The experimental design was a completely randomized block (four) with two replications within the block. The treatments were: 1) grass alone and 2) the grass oversown with the mixture of the winter forages. The blocks were grazed by the same group of sheep in sequence for two or three days until the sward height reached to 10-15 cm. The white clover did not establish. In the first year the oversown treatment presented higher total forage mass than the control in the second periods and in the mean of the six periods. The black oat presented higher contribution in the second period and italian ryegrass in the third. The oversown pastures presented higher FA and MFADR than the single aruanagrass pastures, in the second, fifth and in the mean of the six periods. The CP in the forage from the grass pasture alone was greater than the one of the oversown pasture in the third period, and similar in the others. Oat and ryegrass CP was lower in the third period than the ones of the first and second ones. NDF, ADF and lignin in the forage from the grass pasture alone were greater than the ones of the oversown pasture. Oat and ryegrass NDF was lowest in the initial growth periods, increasing in the final. Forage IVDMD from the two treatments were similar in all evaluation periods. In the second year, the total forage mass was similar in the two pasture treatments in all grazing periods and in their means. The black oat contribution was higher in the first period and the one of italian ryegrass in the third. The FA and the MFADR were similar in the two pasture systems. The leaf blades percentage of aruanagrass was similar in the two pastures in all periods and the ones of black oat and italian ryegrass were lower in the final period compared to the preceeding ones, in the two years. The CP in the forage from the grass pasture alone was greater than the one of the oversown pasture in the fourth period, and similar in the others. Oat and ryegrass CP decreased along the grazing periods. NDF, ADF, lignin and IVDMD of the forage from the two treatments were similar in all evaluation periods. Oat and ryegrass NDF, ADF and lignin were greater in the last grazing period. Ryegrass IVDMD from the first two periods were similar and decreased in the final. For the São Paulo State conditions, adequately fertilized and irrigated aruanagrass pastures, when oversown with winter annual forages, yield more than single aruanagrass ones during the dry winter period but with similar nutritive value. Single aruanagrass pastures when fertilized and irrigated present also good forage yields with good nutritive value during this time.

aveia preta

azevém

black oat

forage

forragem

herbage yield

irrigação

irrigation

italian ryegrass

nutritive value

ovinos

produção vegetal

sheep

trevo branco

valor nutritivo.

white clover.

Milk production and nitrogen partitioning in dairy cows grazing standard and high sugar perennial ryegrass with and without white clover, during spring and autumn : a thesis presented in partial fulfilment of requirements for the degree of Master of Applied Science in Animal Production at Massey University, Palmerston North, New Zealand

Lazzarini, Maria Belen

January 2010

Two field grazing experiments were conducted in New Zealand (NZ) in spring (Experiment 1; November 2008) and autumn (Experiment 2; April 2009) to evaluate the effects of feeding a high sugar perennial ryegrass (HSG; cv. AberDart; derived in the United Kingdom; UK) versus a NZ- derived control grass (cv. Impact) on milk production and estimated nitrogen (N) partitioning within the cow. Areas of both ryegrasses were replicated and sown with or without white clover (cl) (HSG+cl, control+cl, HSG and control). A cross-over design with four 10-day periods was used in each experiment, using 15 Friesian cows per treatment per period in Experiment 1 and 5 cows per treatment per period in Experiment 2. Treatment effects upon pasture botanical and chemical composition, cows’ milk yield and composition, and estimated N partitioning were studied. Nitrogen partitioning was calculated using indirect methods. Herbage concentrations of water soluble carbohydrates (WSC) were lower in autumn than in spring whilst crude protein (CP) concentrations were higher in autumn. Organic matter digestibility (OMD) and metabolisable energy (ME) concentration was similar in both seasons. There were no differences in the concentration of CP, WSC and dry matter (DM) among treatments in Experiment 1. The HSG+cl treatment had the lowest concentrations of neutral detergent fibre (NDF, 417 g/kg DM) and the highest content of ME (12.6 MJ/kg DM) and tended to have the lowest sward dead matter content compared with the other three treatments. In Experiment 2 both HSG treatments showed higher concentrations of WSC (15 g/kg DM) compared with the control, both with and without clover; the concentrations of NDF and acid detergent fibre (ADF) were the lowest for both HSG treatments. In Experiment 1, cows grazing treatments with white clover produced more milk (1.6 kg/day) and more milk solids (MS; 0.16 kg/day) than cows grazing pure ryegrass swards ( P< 0.01), with highest milk yields being from cows grazing the HSG+cl treatment (ryegrass cultivar x white clover interaction P<0.05). No differences in milk production were found in Experiment 2. Estimated urinary N excretion (g/day) was similar for all treatments in both seasons, although N intake differed among treatments. The proportion of N intake excreted in urine or secreted in milk was similar for all treatments in both experiments. Nitrogen output (g/day) in milk was the highest for the HSG+cl treatment in Experiment 1 but no differences were found in Experiment 2. Data were combined from both experiments to study the effects of the herbage CP:WSC ratio upon estimated N partitioning between milk and urine. Mean ratios were 0.72 for spring herbage and 2.27 for autumn herbage. As the amount of WSC increased in the diet relative to the amount of CP (thus a lower CP:WSC ratio) there was a significant increase in the amount of milk N secreted per unit of N intake in spring but not in autumn. The breakpoint in the relationship between the herbage CP:WSC ratio and the nitrogen utilisation efficiency for milk production (NUEm) was 1.32, and the NUEm for that breakpoint was 14 g milk N per 100 g N intake. Ratios below this point were associated with improved efficiency of converting pasture N to milk N; ratios above this point were not correlated with changes in N conversion efficiency. It is concluded that the CP:WSC ratio in perennial ryegrass may be important in the partition of absorbed N into milk or urine. A NZ-selected HSG with a lower CP:WSC ratio is likely to have major benefits for pastoral farming in NZ. In order to be effective, a NZ-derived HSG should substantially increase WSC concentration in autumn pasture (from approximately 100 to 200 g/kg DM) whilst reducing CP content simultaneously (from 240 to 190 g/kg DM). The lower structural fibre and higher milk production for the HSG+cl treatment in both experiments suggest that under NZ conditions, best productive responses to HSG may be obtained in management systems that include white clover.

Milk production

Dairy cattle

Nutrition

Nitrogen partitioning

Perennial ryegrass

White clover

Pasture

Composição botânica, estrutural, valor nutricional e dinâmica do nitrogênio em pastagens de azevém consorciadas / Botanic, structural composition and nutritional value and nitrogen dynamic on ryegrass pastures intercropped

Skonieski, Fernando Reimann

19 February 2009

Conselho Nacional de Desenvolvimento Científico e Tecnológico / The utilization of leguminous plants as a mixing with grass is an economic and simple alternative for the increment of nitrogen on soil and plants, building up the sustainability of pasture systems. This work aimed to evaluate the different species plants consorted with ryegrass through the N incidence on pastures, regarding the MS accumulation, within an agro ecological transition system. The experimental pasture was established by the minimum tillage of the soil after doing two harrowing. It was evaluated in the annual ryegrass culture (Lolium multiflorum Lam.), cv. Common and its treatment was composed joining black oats, white clover and forage peanut. The first grazing was done 21 days after the plants emerge in the pastures of AZ+AV and AZ+AF and 28 days after emerging in the pasture of AZ+TB. The second grazing, at the AZ|+AV pasture, occurred 30 days after the first one, whereas to the others, it occurred 37 days after. The rates of MS accumulation, considering the period of exclusion until the MS production hit the top, was 77,7, 75 and 71kg/ha of MS/day for the pastures joint with AZ+TB, AZ+AF and AZ+AV, respectively. The relation between leaf and culm, until the first grazing, was raised in every experiment. The coefficient (β), which was used in all the pasture samples, was lower than -0,60; the highest N concentration declination in plant tissues, as a consequence of the MS accumulation, occurred in the AZ+TB (-0,94) pasture sample and in the AZ+AF and AZ+AV pastures on the sequence, respectively. The highest content of N, in the plant tissue, was found in the ryegrass only when it was mixed up with white clover. / A utilização de leguminosas em mistura com gramíneas é uma alternativa prática e econômica de incrementar nitrogênio no solo e planta, aumentando a sustentabilidade dos sistemas pastoris. O objetivo do trabalho foi avaliar diferentes espécies em consórcio com azevém sobre a composição botânica, estrutural, nutricional e a dinâmica do N nas pastagens, em um sistema de transição agroecológica. Foi avaliada a cultura do azevém anual (Lolium multiflorum Lam.), cv. Comum, sendo os tratamentos compostos pelos consórcios com aveia preta (Avena strigosa Schreb.), cv. Comum (AZ+AV), trevo branco (Trifollium repens L.), cv. Yi (AZ+TB) e amendoim forrageiro (Arachis pintoi Krapov. & Gregory), cv. Amarillo (AZ+AF). O delineamento experimental foi o inteiramente casualizado, com três tratamentos e três repetições. O 1º pastejo foi realizado com 21 dias após a emergência das plantas nas pastagens de AZ+AV e AZ+AF, e com 28 dias após a emergência na pastagem de AZ+TB. O 2º pastejo na pastagem de AZ+AV ocorreu 30 dias após o 1º pastejo, enquanto para as demais pastagens ocorreu 37 dias após. As taxas de acúmulo de MS considerando o período de exclusão até a produção de MS atingir o pico foi de 77,7, 75,0 e 71,3 kg/ha de MS/dia, para as pastagens consorciadas com AZ+TB, AZ+AF e AZ+AV, respectivamente. A relação folha/colmo até o primeiro pastejo foi elevada em todos os tratamentos. Em relação às curvas de diluição do N, o valor do coeficiente (β) em todas as pastagens foi menor que -0,60, o maior declínio da concentração de N no tecido vegetal em função do acumulo de MS ocorreu na pastagem de AZ+TB (-0,94), seguido das pastagens de AZ+AF e AZ+AV, respectivamente. O maior conteúdo de N no tecido vegetal foi observado no azevém quando consorciado com trevo branco.

Amendoim forrageiro

Coeficiente de diluição

Fibra em detergente neutro

Leguminosas

Nutrientes

Trevo branco

Coefficient of dilution

Forage peanut

Legumes

Neutral detergent fiber

Nutrients

White clover

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA

Introdução de uma mistura de três espécies forrageiras de inverno em pastagem irrigada de capim-aruana. / Introduction of a mixture of three winter forage species in an irrigated aruanagrass pasture.

Luciana Gerdes

13 November 2003

No Instituto de Zootecnia, Nova Odessa, SP, em uma pastagem de capim-aruana (Panicum maximum Jacq. cv. Aruana) utilizada com ovinos em sistema intensivo de produção (irrigação, adubação e lotação rotacionada), foram sobre-semeadas as espécies forrageiras de inverno: aveia preta (Avena strigosa Schreb cv. Comum), azevém anual (Lolium multiflorum Lam. cv. Comum) e trevo branco (Trifolium repens L. cv. Zapicán) com o objetivo de suprir o déficit e melhorar o valor nutritivo da forragem no período crítico do ano. A sobre-semeadura foi efetuada em 14/04/00 e 07/06/01 no primeiro e segundo anos do experimento, respectivamente. Nos dois anos (14/04/00 a 18/01/01 e 07/06/01 a 22/02/02) foram avaliados, em seis períodos de pastejo: massa total de forragem pré-pastejo, sua composição botânica e porcentagem de lâminas foliares, massa de forragem pós-pastejo, acúmulo de forragem (AF) e taxa média diária de acúmulo de forragem (TMDAF) em cada período de rebrotação, altura do dossel forrageiro pré e pós-pastejo, características químicas: proteína bruta (PB), fibra em detergente neutro (FDN), fibra em detergente ácido (FDA), lignina e digestibilidade “in vitro” da matéria seca (DIVMS), nas amostras da massa total de forragem e nas dos componentes botânicos (aruana, aveia preta e azevém) pré-pastejo. O delineamento experimental foi o de blocos completos casualizados (quatro), com duas repetições dentro do bloco e dois tratamentos: 1) capim-aruana exclusivo (AE) e 2) sobre-semeadura da mistura das três espécies forrageiras de inverno (MFI). Os blocos eram pastejados pelo mesmo lote de animais, em sequência, por dois a três dias, até atingir 10 a 15 cm. O trevo-branco não se estabeleceu em ambos os anos. No primeiro ano, a pastagem MFI apresentou maior massa total de forragem do que a pastagem AE no segundo período e na média dos seis períodos. A aveia apresentou a maior contribuição no segundo período e o azevém no terceiro. As pastagens com a MFI apresentaram maiores AF e TMDAF que as pastagens de AE no segundo, quinto e na média dos seis períodos. A PB da forragem na pastagem de capim-aruana exclusivo foi maior em relação à sobre-semeada no terceiro período de pastejo e semelhante nos demais. A PB dos componentes aveia e azevém, no terceiro período, foi menor em relação aos do primeiro e segundo. FDN, FDA e lignina da forragem no tratamento exclusivo foram mais elevados em relação aos do tratamento sobre-semeado, na média dos seis períodos. Aveia e azevém apresentaram FDN mais baixos nos períodos iniciais de crescimento, com aumento no último. A digestibilidade da forragem foi semelhante nos dois tratamentos, em todos os períodos de avaliação. No segundo ano, a massa total de forragem apresentou quantidades semelhantes entre as duas pastagens ao longo dos seis períodos e na sua média. A aveia esteve mais presente no primeiro período e o azevém no terceiro. Não houve diferença entre tipos de pastagem para AF e TMDAF em nenhum dos seis períodos, nem na sua média. Para o componente aruana a porcentagem de lâminas foi semelhante entre os dois tipos de pastagem e para a aveia e azevém, as menores porcentagens ocorreram no período final dos seus ciclos vegetativos, em ambos os anos. O teor de PB da massa total de forragem da pastagem de capim-aruana exclusivo foi maior que o da pastagem sobre-semeada, no quarto período mas semelhante nos demais e na média dos períodos. Os teores de PB da aveia e do azevém decresceram ao longo dos períodos de pastejo. Os teores de FDN, FDA, lignina e DIVMS da forragem foram semelhantes entre as duas pastagens na média e ao longo dos seis períodos, exceto para FDN no segundo período. A aveia e o azevém apresentaram os maiores teores de FDN, FDA e lignina no último período de pastejo. A DIVMS do azevém manteve-se constante nos dois primeiros períodos de pastejo diminuindo no último. Pastos de capim-aruana convenientemente adubados e irrigados, que recebam sobre-semeadura com espécies forrageiras de inverno, produzem mais forragem no período crítico mas com valor nutritivo semelhante em relação a pastos não sobre-semeados, nas condições do Estado de São Paulo. Pastos deste capim, não sobre-semeados, mas que recebam adubação e irrigação também apresentam boa produção e valor nutritivo nesta época. / At Instituto de Zootecnia, Nova Odessa, SP, in a pasture of aruanagrass (Panicum maximum Jacq. cv. Aruana), grazed by sheep in an intensive production system (irrigation, fertilization and rotational stocking), it was introduced a three winter forage species: black oat (Avena strigosa Schreb. cv. Common), italian ryegrass (Lolium multiflorum Lam. cv. Common) and white clover (Trifolium repens L. cv. Zapican) with the objective of increasing the forage supply and its nutritive value during the dry winter period. The mixture was broadcasted sown over the grass on 04-14-00 and 06-07-01 in two years of experiment. From 04-14-00 to 01-18-01 and 06-07-01 to 02-22-02 it was evaluated, in six annual grazing periods, the forage mass, its botanical composition and leaf blades percentage pre grazing, residual mass post grazing, forage accumulation (FA) and mean forage accumulation daily rate (MFADR) in each regrowth period and sward heigth pre and post grazing, the chemical characteristics: crude protein (CP), neutral detergent fiber (NDF), acid detergent fiber (ADF), lignin and in vitro dry matter digestibility (IVDMD) in the forage on offer and in its botanical components. The experimental design was a completely randomized block (four) with two replications within the block. The treatments were: 1) grass alone and 2) the grass oversown with the mixture of the winter forages. The blocks were grazed by the same group of sheep in sequence for two or three days until the sward height reached to 10-15 cm. The white clover did not establish. In the first year the oversown treatment presented higher total forage mass than the control in the second periods and in the mean of the six periods. The black oat presented higher contribution in the second period and italian ryegrass in the third. The oversown pastures presented higher FA and MFADR than the single aruanagrass pastures, in the second, fifth and in the mean of the six periods. The CP in the forage from the grass pasture alone was greater than the one of the oversown pasture in the third period, and similar in the others. Oat and ryegrass CP was lower in the third period than the ones of the first and second ones. NDF, ADF and lignin in the forage from the grass pasture alone were greater than the ones of the oversown pasture. Oat and ryegrass NDF was lowest in the initial growth periods, increasing in the final. Forage IVDMD from the two treatments were similar in all evaluation periods. In the second year, the total forage mass was similar in the two pasture treatments in all grazing periods and in their means. The black oat contribution was higher in the first period and the one of italian ryegrass in the third. The FA and the MFADR were similar in the two pasture systems. The leaf blades percentage of aruanagrass was similar in the two pastures in all periods and the ones of black oat and italian ryegrass were lower in the final period compared to the preceeding ones, in the two years. The CP in the forage from the grass pasture alone was greater than the one of the oversown pasture in the fourth period, and similar in the others. Oat and ryegrass CP decreased along the grazing periods. NDF, ADF, lignin and IVDMD of the forage from the two treatments were similar in all evaluation periods. Oat and ryegrass NDF, ADF and lignin were greater in the last grazing period. Ryegrass IVDMD from the first two periods were similar and decreased in the final. For the São Paulo State conditions, adequately fertilized and irrigated aruanagrass pastures, when oversown with winter annual forages, yield more than single aruanagrass ones during the dry winter period but with similar nutritive value. Single aruanagrass pastures when fertilized and irrigated present also good forage yields with good nutritive value during this time.

aveia preta

azevém

forragem

irrigação

ovinos

produção vegetal

trevo branco

valor nutritivo.

black oat

forage

herbage yield

irrigation

italian ryegrass

nutritive value

sheep

white clover.

Effet d'une sécheresse extrême sur le fonctionnement de l'écosystème prairial : évaluation du rôle tampon de la composition et de la diversité végétale par approche expérimentale / Extreme drought effect on grassland ecosystem functioning : assessment of buffering effect of plant composition and diversity by experimental approach

Hernandez, Pauline

29 November 2016

Les prairies permanentes représentent l’une des principales formes d’utilisation des terres en Europe. En France, elles représentent près de 40% de la Surface Agricole Utile (SAU) et restent le support de nombreux systèmes d’élevage. Les scénarios actuels de changement climatique prévoient tous un accroissement de la variabilité climatique qui pourrait se traduire par un accroissement des évènements extrêmes, notamment en ce qui concerne les épisodes de sécheresses. Ces événements extrêmes sont de nature à altérer la structure et le fonctionnement des prairies et en conséquence la capacité de ces écosystèmes à rendre des services agricoles, écologiques et environnementaux. Une meilleure compréhension des mécanismes de résistance et de résilience des communautés végétales prairiales face à l’occurrence de sécheresses extrêmes s’avère donc cruciale pour évaluer la stabilité du fonctionnement de l’écosystème prairial et notamment du service de production qu'il supporte. Cette thèse a pour objectif principal d’évaluer la capacité des prairies permanentes à maintenir leur fonction de production face à un événement de sécheresse extrême. Elle s’appuie sur une démarche expérimentale en mésocosmes sous conditions semi-contrôlées permettant de caractériser le rôle de la composition et de la structure des communautés végétales prairiales dans la résistance et la résilience à la sécheresse des prairies. Pour évaluer l’importance de la composition et de la diversité fonctionnelle dans la réponse des communautés végétales, des monocultures et des mélanges associant graminées et une légumineuse ont été sélectionnés. L’originalité de ce travail réside dans une approche d’écologie fonctionnelle permettant d’appréhender l’importance des interactions entre espèces dans la réponse de la communauté via l’analyse de traits morphologiques et physiologiques mesurés conjointement dans les compartiments aérien et souterrain de la végétation. Cette étude a mis en évidence le rôle prépondérant du Trèfle blanc (Trifolium repens) dans la modulation de l’impact d’un événement de sécheresse extrême sur la production de biomasse de mélanges prairiaux. Si aucun effet tampon de la composition et de la structure de la communauté n’a été mis en évidence durant la sécheresse, la présence et l’abondance de Trèfle blanc a été reliée à une meilleure récupération à long terme de la production de biomasse des mélanges. Après l’extrême, une surproduction des mélanges associant graminée et Trèfle blanc a ainsi été attribuée à des mécanismes de facilitation azotée et de complémentarité verticale de niches au niveau racinaire pour l’acquisition de l’eau. Nous avons ainsi souligné l’importance de la croissance des racines profondes pour la mise en place de complémentarités fonctionnelles entre espèces et donc pour le maintien de la production sous sécheresse extrême. L’événement de sécheresse affecte durablement le comportement des racines et de ce fait les mécanismes sous-jacents de l’effet bénéfique du Trèfle blanc sur la production aérienne. Par ailleurs, notre étude a mis en évidence le rôle majeur des interactions hétérospécifiques dans l’expression de traits intraspécifiques liés aux stratégies d’acquisition des ressources et par conséquent dans la régulation de la performance des espèces sous sécheresse extrême. Nous montrons que la structure et la composition fonctionnelle de la communauté végétale apparaît essentielle dans la régulation de la réponse à un événement de sécheresse extrême. Dans notre étude, la récupération de la production de biomasse aérienne après sécheresse extrême repose essentiellement sur la présence de Trèfle blanc et la mise en place d’interactions positives entre espèces. La prise en compte de la modulation par les interactions interspécifiques du comportement des espèces en mélanges s’avère nécessaire dans la prévision de la production des prairies sous climat futur. (...) / Permanent grasslands are one of the main forms of land use in Europe. In France, permanent grasslands represent around 40% of Utilised Agricultural Land and support many animal-based farming systems. Current climate change scenarios predict increased climate variability that could result in an increase in extreme events such as drought episodes. These extreme events can significantly alter the structure and functioning of grasslands, with implications for their capacity to provide agricultural, ecological and environmental services. Improved understanding of the resistance and resilience mechanisms of grassland plant communities exposed to extreme drought is therefore critical in order to assess the stability of grassland functions, in particular that of biomass production. This thesis aims at assessing the capacity of permanent grasslands to sustain their production when exposed to an extreme drought event. The study uses an experimental approach and semi-controlled conditions to investigate the role of community composition and functional diversity for drought resistance and resilience in grassland mixtures. Monocultures and mixtures combining grasses and legumes were selected to test the importance of composition and functional diversity for plant community responses during drought and up to a year after the end of water stress. The originality of this work is the use of a functional ecological approach to assess the impacts of species’ interactions via measurements of plant morphological and physiological traits both above- and below-ground. This study demonstrates the importance of white clover (Trifolium repens) in modulating the impact of extreme droughts on biomass production of grassland mixtures. Community composition did not have a buffering effect on biomass production during the drought event but the presence and abundance of white clover in mixtures was linked to higher recovery of biomass production in the long-term. After the extreme drought event, overyielding in mixtures combining grass and white clover could be attributed to mechanisms of nitrogen facilitation and vertical root complementarity for water uptake. Results also show the importance of deep root growth for the establishment of functional complementarity between species and the maintenance of biomass production under extreme drought. Drought had lasting effects on the root system patterns and thus on the underlying mechanisms of the positive effect of white clover on aboveground production. Moreover, this work highlights the key role of heterospecific interactions in the expression of intraspecific traits related to resource acquisition strategies. Heterospecific interactions are thus an important driver of the species performance under extreme drought.We show that the structure and functional composition of the plant community in simplified mixtures are critical for modulating grassland responses to an extreme drought event. In our study, the recovery of aboveground biomass production is mainly related to the presence of white clover and the establishment of positive interactions between species. Changes of species behaviour in response to heterospecific interactions should be taken into account to better predict grassland biomass production under future climatic conditions. From an applied perspective, accounting for the key role of white clover and the inherent variability or neighbour-induced plasticity of intraspecific traits appears important to adapt mixtures of species or varieties to more intense and frequent drought events.

Sécheresse

Prairies

Extrême climatique

Overyielding

Résistance

Résilience

Interactions hétérospécifiques

Complémentarité

Trèfle blanc

Traits fonctionnels des plantes

Drought

Grasslands

Climate extreme

Overyielding

Resistance

Resilience

Complementarity

White clover

Plant functional traits

Heterospecific plant interactions

Pasture responses to lime and phosphorus on acid soils in Natal.

Miles, Neil.

January 1986

No abstract available. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1986.

Pastures--Natal--Fertilizers.

Pastures--Research--Natal.

Soil amendments--Natal.

Acid soils--KwaZulu-Natal.

Soils--Phosphorus content.

Liming of soils.

Kikuyu grass.

Weeping lovegrass.

White clover.

Lolium.

Tall fescue.

Pastures--Fertilizers.

Theses--Soil science.

Mixed grazing of sheep and cattle using continuous or rotational stocking

Kitessa, Soressa Mererra

January 1997

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

Effects of alternative grass species on grazing preference of sheep for white clover

Muraki, Tomohiro

January 2008

Despite the importance of a high white clover (Trifolium repens) content in temperate pastoral systems in terms of livestock performance and nitrogen fixation, the proportion of white clover in grass-clover pastures is often low (<20%). This thesis examined in two experiments whether the white clover content of pastures could be improved by sowing white clover with alternative grass species to diploid perennial ryegrass (Lolium perenne L.). In a pasture experiment, DM production, pasture composition and morphology of grass-clover mixtures was measured over the establishment year (January 2007 to January 2008) where white clover was sown in fine mixtures with diploid perennial ryegrass, tetraploid perennial ryegrass, timothy (Phleum pratense L.) and cocksfoot (Dactylis glomerata L.). Pastures were irrigated and rotationally grazed with on-off grazing with Coopworth ewe hoggets. Total annual DM production of pasture was more than 20% higher in tetraploid (12521 kg DM ha⁻¹) and diploid (11733 kg DM ha⁻¹) perennial ryegrass than timothy (9751 kg DM ha⁻¹) and cocksfoot (9654 kg DM ha⁻¹). However, timothy (5936 kg DM ha⁻¹) and cocksfoot (5311 kg DM ha⁻¹) had more than four times higher white clover annual DM production than tetraploid (1310 kg DM ha⁻¹) and diploid (818 kg DM ha⁻¹) ryegrass. Pasture growth rate at the first three harvests in autumn was significantly greater in tetraploid and diploid ryegrass than timothy and cocksfoot. Timothy and cocksfoot had a higher proportion of white clover than tetraploid and diploid perennial ryegrass throughout the entire year. This was due to more and larger white clover plants in timothy and cocksfoot plots. In a grazing preference experiment, the partial preference of sheep for white clover offered in combination with the same grass species as in the pasture experiment was measured in five grazing tests in May, September, October, November and December 2007. Pastures were sown in January 2007. Paired plots (grass and clover both 4.2 m x 10 m) were grazed by three Coopworth ewe hoggets between 9am and 5pm, and preference was recorded by decline in pasture mass and visual scan sampling for grazing time. Grazing preference for clover was generally low throughout these tests (e.g. average apparent DM intake from clover = 47%; average grazing time from clover = 44%). Several explanations are proposed for this low preference including a high N content and intake rate of the grass relative to the clover. No significant differences were found among the grass treatments in total grass grazing time, total clover grazing time, ruminating time, the proportion of grazing time on clover, selective coefficient for clover and DM intake percentage from clover at any date. There was no significant change in overall sward surface height (SSH) decline among grass treatments throughout all the tests except December 2007 when the overall SSH decline for cocksfoot was significantly lower than the other species. The study indicated that the rapid growth rate of perennial ryegrass in the early phase of pasture establishment, rather than differences in partial preference, was the key factor limiting white clover content in the mixed swards relative to cocksfoot and timothy pastures. It is concluded that high clover-containing pastures capable of delivering high per head performance can be established through the use of slow establishing pasture species such as timothy and cocksfoot.

white clover

cocksfoot

ryegrass

timothy

grazing preference

tetraploid perennial ryegrass

diploid perennial ryegrass

Lolium perenne

Phleum pratense

Dactylis glomerata

Trifolium repens

mixed swards

monocultures

growth rate

A comparison of the cool season activity of two white clover cultivars

Smetham, M. L.

January 1972

Although New Zealand is fortunate in having a climate mild enough to allow some growth of pasture in winter even in the extreme south of the South Island (Duffy, 1971), growth is nevertheless considerably less than in spring and summer. O’Connor et al, (1968) point out that at Lincoln, Canterbury, winter production from a New Zealand Certified Grasslands Ruanui Perennial ryegrass (Lolium perenne c.v.) and New Zealand Certified Grasslands Huia white clover (Trifolium repens c.v.) sward is at best only 8% of the mean total annual dry matter (D.M.) production. A similar seasonal pattern is shown by irrigated pastures (Rickard, 1968), as well as pastures in the milder North Island of New Zealand (O’Connor and Vartha, pers comm.). Stocking of grazing animals is normally related to the growth rate of pastures in the spring, with conserved hay or silage, plus specially grown greenfeed or root crops being fed if necessary to offset the winter feed deficit. However on hill country too steep for tractor cultivation, cropping and conservation are not possible. Animals have to rely upon in situ grazing of native or dominant browntop (Agrostis tenuis) swards which may not have been improved by the aerial introduction of clovers. In an unimproved state, the quality and quantity of the herbage grown on such areas are low, Molloy (1966) have discussed clover introduction into native swards and the notably beneficial result this has on stock thrift, particularly during the winter period. Considerably better growth rates of stock grazing legumes rather than grasses have been noted by many authors including Ulyatt, (1971), and McLean et al (1962); this superiority being due largely to the greater digestible organic matter intake and higher ratio of soluble to insoluble carbohydrate associated with the herbage of legumes (Ulyatt, 1971). Consequently the presence of clover, and the winter activity of this, have an important influence on the productivity of steep hill country during winter. An increase of winter activity is also desirable, but not essential, in clover associated with flat or gently rolling pastures. The main pasture legume used in New Zealand has, in the past, been the white clover cultivar Huia. Whilst since 1945 selection and breeding of ryegrasses has brought about a very considerable improvement in the winter or cool season activity of these (Corkill, 1966), no legume cultivar having an increased level of cool-season activity has been released to commerce in New Zealand over the same period to date. Breeding for increased winter growth has been an objective of the Grasslands Division Plant Breeding Section for many years (Barclay, 1960). Since 1957, breeding and selection work has been proceeding with the objective of increasing the winter growth of the New Zealand Certified Grasslands white clover cultivar – Huia (henceforth to be referred to as Huia) without sacrificing the moderately good summer growth of this strain, (Barclay, 1969). Seed of a promising cultivar selected during the course of this work – New Zealand Grasslands 4700 white clover, (henceforth to be referred to as 4700) became available for testing in 1967. The investigation to be reported here aimed to measure the cool-season activity of 4700 by comparison with that of Huia, at the same time elucidating if possible the factors controlling this growth.

white clover

Trifolium repens

ryegrass

Lolium perenne

Agrostis tenuis

browntop swards

cultivars

pasture growth

pasture production

cool season activity

climate

grazing

New Zealand