Remote sensing to detect plant stress induced by Heterodera schachtii and Rhizoctonia solani in sugar beet fields

The characteristically clustered occurrence and low level of mobility of Heterodera schachtii and Rhizoctonia solani in the soil and the induction of stress symptoms in the sugar beet canopy make them ideal targets for site-specific arrangements with precision agriculture tools. A field site infested with H. schachtii and R. solani was investigated in 2009 with near-range and aerial hyperspectral sensors during the growing season. At 31 sample points ground truth data for incidence and severity of the two organisms were collected and geo-referenced. Spectral vegetation indices computed from reflectance measurements obtained from two flight campaigns (AISA, 17th of June; HyMap, 28th of August) and the near-range spectroradiometers were significantly correlated (P < 0.01) with symptoms caused by the nematode or Rhizoctonia crown and root rot. A supervised classification with Spectral Angle Mapper of leaf symptoms induced by the organisms resulted in a classification accuracy of 72 and 64% for the AISA and HyMap data, respectively. The results demonstrated that remote sensing in combination with geographic information system technologies can be used effectively for the detection and mapping of symptoms caused by beet cyst nematode and Rhizoctonia crown and root rot.     

Pests and diseases contribute to sugar beet yield difference between top and averagely managed farms

Crop yield has to increase to meet the expanding demand for food, feed and bio-energy, caused by world population growth and increasing wealth. Raising sugar yield is also the key to sustaining the profitability of the sugar beet crop. This paper describes the factors that impacted on yield differences between 26 ‘top’ and 26 ‘average’ growers based on four years yield data (2000-2004). In 2006 and 2007, the top growers had 20% higher sugar yields compared to their neighbouring average growers. Heterodera schachtii and Beet necrotic yellow vein virus (BNYVV) were mainly found on clay soils. Top growers on clay soil had significantly lower infestation levels of H. schachtii (4.4x lower, P = 0.008), BNYVV (2.7x lower, P = 0.016) and other foliar symptoms (Pseudomonas, Phoma betae and Verticillium spp. combined) (1.5x lower, P < 0.001), than the average growers, respectively. On sandy soils, infestation levels of Meloidogyne spp. (P = 0.016), Cercospora beticola (P = 0.005) and Erysiphe betae (P = 0.027) were significantly lower (5x, 1.4x and 1.8x, respectively) for the top growers. The top growers on clay or sand sowed 5 and 6 days earlier respectively, and made more fungicide applications and thus used more fungicides than the average growers. Insect pests were not observed at levels damaging for sugar yield: Insecticidal seed treatments provided sufficient control of insect pests. In multiple regression, 35% of the variance in sugar yield on clay soils was explained by H. schachtii and BNYVV infestation levels and by sowing date. On sandy soils, the infestation levels of Heterodera betae and Aphanomyces cochlioides, number of fungicide applications and sowing date explained 71% of the variance in sugar yield. Despite crop protection measures, the calculated yield losses due to pests and diseases for the top growers were 30.2 and 13.1% and for average growers were 37.1 and 16.7% on sandy and clay soils, respectively. Therefore, pest and disease infestation levels partly explained the differences in sugar yield between top and average growers analysed. The skills and knowledge of the grower are important to reducing damage by pests and diseases. Communication of knowledge, obtained by research, towards growers is vital for the long-term raising of yield and increasing of productivity in sugar beet, as well as in other crops.     

Survey of weed beet in sugar beet in England 1978–1981

The herbicides currently used in growing sugar beet are unable to differentiate between Beta seedlings sown as the crop and those which arise from seeds present in the soil. Many of the latter are prone to run to seed (bolt) in their first year, and, if not controlled, are likely to produce viable seeds that increase the soil-borne population. Nationally approximately 2·5% of the national sugar-beet fields were examined each year to assess the frequency of misplaced seedlings and bolters and their viable seeds. This survey showed that 18, 24, 22 and 27% of the fields in the years 1978–1981 respectively, were infested by Beta seedlings which had not been sown by the drill. The frequency of infestation decreased as the rotation lengthened and was less common on the peat soils. Compared with no treatment, handwork, which was most common method of control, halved the likelihood of viable seeds being produced. In spite of intensive publicity 40% of the fields remain untreated.     

Natural control of the cereal cyst nematode, Heterodera avenae Woll., by soil fungi at three sites

Populations (eggs/g dried soil) of the cereal cyst nematode Heterodera avenae Woll. failed to increase at two sites on susceptible spring barley but increased slightly at another on spring oats. Nematode multiplication was not related to the numbers of females produced on roots in summer; fewer female nematodes were produced where populations increased than where they declined. The failure of the nematode to multiply was due to few (less than 40%) of the females forming cysts containing eggs, a reduction in fecundity and an increase in the number of encysted eggs containing fungi. Verticillium chlamydosporium was the main fungus causing the decline in nematode numbers. Nematophthora gynophila was present at all sites but was most active at Woburn where irrigation was used to keep soils moist. V. chlamydosporium was the main parasite of encysted eggs at all sites but soil-borne saprophytic fungi were also isolated. These fungi were not found in many eggs and were considered to be only weak parasites. Differences in resting fungal spore densities in soil were not always related to differences in rates of parasitism. The activity of N. gynophila is affected by soil moisture and density of females as well as the density of spores in soil. The production of chlamydospores by V. chlamydosporium may also depend on the isolate of fungus present: some isolates produce no such spores on artificial media or, possibly, in soil. This work has shown that V. chlamydosporium and N. gynophila can reduce cereal cyst nematode populations under susceptible cereals but it is difficult to predict at present if they will give an effective control in a given soil or season.     

The effects of incorporating sugar-beet pulp with herbage at ensiling on silage fermentation, effluent output and in-silo losses

Three studies were undertaken with the aim of examining in-silo losses associated with ensiling mixtures of beet pulp and herbage. In Experiment 1, first-regrowth perennial ryegrass was ensiled untreated or mixed with either 40 or 120 kg unmolassed beet pulp t^?1 fresh grass prior to ensiling. In each of Experiments 2 and 3, second-regrowth ryegrass was ensiled untreated or mixed with either 40, 80 or 120 kg unmolassed beet pulp t^?1 fresh grass prior to ensiling. Dry-matter concentrations of herbage ensiled in Experiments 1, 2 and 3 were 141, 157 and 139 g kg^?1 respectively. Time-course studies indicated a more rapid fermentation with the untreated silages. Ensiling beet pulp with herbage resulted in significant improvements in silage fermentation, reflected in reductions in silage pH and ammonia nitrogen concentrations, with these effects being pronounced at beet pulp inclusion in excess of 80kg t^?1. Beet pulp inclusion increased the dry-matter concentrations of the resulting silages while reducing crude protein, modified acid detergent fibre and gross energy concentrations. In Experiment 1 beet pulp retained 1·62 and 1·641 effluent kg^?1 at the 40 and 120kg t^?1 application rates respectively. In Experiments 2 and 3, effluent retentions were 1·40, 1·29 and 0·93 1 kg^?1 and 2·87, 2·19 and 1·781 kg^?1 at the 40, 80 and 120kg t^?1 beet pulp inclusion rates respectively. In each of Experiments 1 and 3, in-silo losses were reduced with increasing level of beet pulp inclusion, while in Experiment 2 in-silo losses were relatively unaffected by treatment. Nutrient losses in effluent were reduced by the inclusion of beet pulp in all three experiments, while nutrient losses in surface waste and invisible nutrient losses tended to increase with higher levels of beet pulp inclusion. It is concluded that the inclusion of beet pulp with herbage at ensiling can result in an improved silage fermentation and a reduction in in-silo losses, while at the same time retaining considerable quantities of effluent within the silo. However, with herbage dry-matter concentrations below 160gkg^?1, beet pulp inclusion in excess of 120 kg t^?1 herbage would be required to eliminate effluent production totally.     

Effectiveness of carbofuran applied to the soil and as a seed treatment for the control of aphids on wheat in Northwestern Mexico

The effectiveness of carbofuran 300 ST and 350 L applied to the soil and as a seed treatment was evaluated with two wheat cultivars ‘Genaro’ and ‘Sonoyta’ in the Valle del Yaqui, Ciudad Obregon, Sonora in Northwestern Mexico. Both the soil and seed treatment significantly (P < 0·05) reduced greenbug, Schizaphis graminum (Rondani) and corn leaf aphid, Rhopalosiphum maidis (Fitch) populations. Infestations of greenbugs and corn leaf aphids were 97·8% and 98·3% less, respectively, with the soil application of carbofuran 350 L in the Genaro wheat plots and 91% less for both aphids in the Sonoyta wheat plots than on the untreated controls. Greenbug and corn leaf aphid infestations in the seed treatment with carbofuran 300 ST on the Genaro wheat plots were 93·4% and 52·5% less, respectively, and in the Sonoyta wheat plots, infestations of greenbugs and corn leaf aphids were 92% and 78·9% less, respectively, than on the untreated controls. The wheat plots where carbofuran 350 L was applied to the soil had yields 18% and 16% greater for the Genaro and Sonoyta cultivars, respectively, than the untreated controls, while those plots where carbofuran 300 ST was applied as a seed treatment had yields 15% and 12% greater for the Genaro and Sonoyta cultivars, respectively, than the untreated controls.     

The effect of sugar beet pulp-based silage additives on effluent production, fermentation, in-silo losses, silage intake and animal performance

First-harvest direct-cut, double-chopped grass (190 and 164g DMkg^?1 in Experiments 1 and 2 resptectively) was ensiled without an additive or, in Experiment 1, with 30 kg t^?1 grass of an absorbent additive based on sugar beet pulp (Sweet ‘n’ Dry) or with 3·441 t^?1 grass of formic acid and, in Experiment 2, with 30, 50 and 70 kg t^?1 grass of Sweet ‘n’ Dry or with 50kg t^?1 grass of unmolassed sugar beet pulp. The preservation and nutritive value of the silage, in-silo losses (including silage effluent production), silage intake and animal performance of adult and growing cattle were examined. In Experiment 1 all three silages were well preserved, although the formic acid-treated silage displayed significantly lower pH, ammonia nitrogen (NH₃N) [g kg^?1 total nitrogen (TN)] and volatile fatty acids (VFAs) than the other two silages. In Experiment 2 absorbent-treated silages displayed significantly lower pH, buffer capacity (Bc), NH₃N (gkg^?1 TN), CP, modified acid detergent fibre (MADF) and VFAs than untreated silage. Treatment of grass with the absorbent additives at ensiling resulted in reduced effluent production. In Experiment 1 each kilogram of Sweet ‘n’ Dry retained approximately 11 effluent, and in Experiment 2 silages made with Sweet ‘n’ Dry applied at 70kgt^?1 and sugar beet pulp applied at 50 kg t^?1 produced similar volumes of effluent and each kilogram of absorbent retained 1·0 and 1·31 of effluent respectively. In Experiment 1 sixty beef cattle [mean initial live weight (LW) 460 kg] were grouped according to LW and allocated to treatment at random. For untreated silage (unsupplemented or with 1 or 2 kg supplement head^?1 day^?1), absorbent-treated silage (unsupplemented or with 1 or 2 kg supplement head^?1 day^?1) and formic acid-treated silage (1 kg supplement head^?1 day^?1) the daily silage DM intakes were 6·12, 6·21, 6·40, 7·65, 7·45, 7·11 and 7·85 (s.e. 0·280) kg respectively, the daily liveweight gains were 0·22, 0·56, 0·81, 0·59, 0·74, 0·81 and 0·75 (s.e. 0·071) kg respectively and daily carcass gains were 0·31, 0·47, 0·67, 0·47, 0·61, 0·70 and 0·57 (s.e. 0·043) kg respectively throughout a 75-day feeding period. In Experiment 2, fifty-six growing cattle (mean initial weight 312 kg) were grouped according to LW and allocated to treatment at random. For untreated silage (unsupplemented or with 1·5 kg Sweet ‘n’ Dry or 1·5 kg commercial concentrates head^?1 day^?1), silage treated with Sweet ‘n’ Dry at 30, 50 and 70 kg t^?1 grass and silage treated with 50kg sugar beet pulp t^?1 grass the daily silage DM intakes were 5·46, 5·28, 5·33, 6·21, 6·27, 6·60 and 6·62 (s.e. 0·154) kg respectively and daily liveweight gains were 0·39, 0·75, 0·81, 0·63, 0·76, 0·94 and 1·75 (s.e. 0·052) kg respectively throughout a 122-day feeding period. In this experiment 360g kg^?1 more absorbent was required when it was included at ensiling rather than offered as a supplement to untreated silage to achieve the same individual animal performance.     

Development of new bioformulations using Trichoderma and Talaromyces fungal antagonists for biological control of sugar beet damping-off disease

The aims of this study were to develop new bioformulations using Trichoderma harzianum, Trichoderma asperellum, and Talaromyces flavus and some organic and inorganic carriers and evaluate their effects against Rhizoctonia solani, the fungal causal agent of sugar beet seedling damping-off disease. Selected fungal isolates were first re-cultured and maintained on potato dextrose agar (PDA) culture medium. Antagonistic effects of eight isolates of the above-mentioned antagonistic fungi were then evaluated against R. solani, through volatile metabolites and non-volatile metabolites production mechanisms under laboratory conditions. In volatile and non-volatile metabolite experiments, five and seven isolates caused significant reduction in R. solani growth respectively. Based on the results of laboratory experiments, the most effective antagonistic isolates (one isolate from each species) were selected for development of nine bioformulations using peat, rice bran and talc as carriers. The effectiveness of developed bioformulations was then evaluated in controlling sugar beet damping-off disease in a greenhouse experiment where sugar beet seeds were coated with bioformulations and were sown in pasteurized field soil pre-inoculated with R. solani. Results of the greenhouse experiment 60 days after sowing showed that all bioformulations increased the number of healthy seedlings significantly (compared to the untreated control) with different rates. According to the results, the most effective bioformulation was Talc-T. harzianum followed by Peat-T. flavus, Talc-T. flavus and Rice bran-T. harzianum. In general, in both laboratory and greenhouse experiments, T. flavus was the most effective fungal antagonist followed by T. harzianum and T. asperellum. Based on the results of this study it is concluded that Trichoderma and Talaromyces employing different mechanisms might be potential biocontrol agents for controlling R. solani-induced sugar beet damping-off disease.     

Management of Meloidogyne incognita in yam-based cropping systems with cover crops

The effect of intercropping cover crops was with yam was assessed for nematode management both in pot and field conditions in Nigeria. The cover crops were sown with yams in pots containing sterile soil and inoculated with 5000 eggs of Meloidogyne incognita. In the field, each cover crop was separately intercropped with yams inoculated with 10,000 nematodes. From both pot and field experiments, no nematode damage was observed on yam tubers that were intercropped with Aeschynomene histrix, Crotolaria juncea, and Tagetes erecta. Damage in intercropped tubers was reduced by 72.7% with Mucuna pruriens, Centrosema pubescens, and Pueraria phaseoloides and by 58.3% with Stylosanthes guianensis compared to yams planted without cover crops; they also had lower (p ≤ 0.05) nematode populations. Cajanus cajan, Lablab purpureus and Vigna unguiculata however, supported high nematode populations and led to nematode damage in intercropped yams. Tubers from M. incognita-inoculated plants were more damaged and lost 42% more weight (p ≤ 0.05) following three months of storage than tubers from uninoculated plants. Intercropping yams with selected cover crops can be useful in managing M. incognita without reducing yam yields.     

Residual effects of Bacillus thuringiensis and chemical insecticide treatments on spruce budworm (Choristoneura fumiferana Clemens)

Biochemical analysis has shown that populations of Choristoneura fumiferana Clemens (Lepidoptera: Tortricidae) which have survived treatment with chemical insecticides (organophosphates and carbamates) have greater energy reserves and vigour than those from untreated areas: conversely, populations surviving treatment with Bacillus thuringiensis (B.t.) are considerably less vigorous. Surviving pupae from untreated, organophosphate-treated and B.t.-treated areas gave, respectively, the following results on biochemical analysis: average weight, 69·5, 82·0 and 46·9 mg; Ca⁺⁺, 80·0, 114·5 and 54·0 mg/kg; total proteins, 27·6, 36·3 and 19·2 mg/kg; 3-hydroxybutyrate dehydrogenase, 1004, 1091 and 200 mU/g; alkaline phosphatase, 541, 580 and 251 mU/g. These analyses confirmed that B.t. treatments had a detrimental effect on survivors whereas chemical insecticides encouraged the resurgence of vigorous populations of C. fumiferana as a result of stimulation of these insects by sub-lethal dosages (hormoligosis).     

Maize genotype susceptibility to Rhizoctonia solani and its effect on sugar beet crop rotations

Root and crown rot is the major soil-borne fungal disease in sugar beet. In Europe, the disease is mainly caused by the anastomosis group (AG) 2-2IIIB of the basidiomycete Rhizoctonia solani (Kühn). No chemical fungicide to control the disease has been registered in Europe. Therefore, agronomic measures must be optimized to keep the disease severity below an economic damage threshold and to minimize white sugar yield losses. R. solani AG 2-2IIIB infects many other crops besides sugar beet, including maize, where it causes root rot. Sugar beet and maize are frequently grown in the same crop rotation. The proportion of cultivated maize in several European sugar beet growing areas is expected to rise due to a projected increase in demand for renewable resources over the next few years. Although the susceptibility to and tolerance of the disease varies among cultivars in both crops, little is known about the effects of cultivar susceptibility in the pre-crop on a subsequent susceptible crop. The cultivation of R. solani-resistant maize genotypes in rotation with resistant sugar beet might therefore be a useful tool in an integrated control strategy against R. solani, eliminating the need to restrict the desired crop rotation for phytosanitary reasons. A crop rotation experiment with artificially inoculated R. solani was conducted in the field to investigate the pre-crop effects of maize cultivars which differed in their susceptibility to R. solani on a susceptible sugar beet cultivar. We hypothesized that the maize genotype would influence the inoculum potential and performance of a susceptible sugar beet genotype grown after a maize pre-crop, and that this would correlate with the susceptibility of the maize genotype. The results demonstrate that the susceptibility of maize genotypes is consistent over a period of years and that cultivated maize genotypes influenced the inoculum potential measured as disease severity in sugar beet. However, disease severity in sugar beet did not correlate with the disease susceptibility of the genotype of the maize pre-crop. Possible reasons for this missing relationship might be differences in the quality of maize residues for the saprophytic survival of the pathogen or a genotype-specific alteration of the antagonistic microbial community. However, our findings showed that in the presence of maize- and sugar beet-pathogenic R. solani, the most favourable maize cultivar for a crop rotation cannot be determined solely on the basis of its resistance level against Rhizoctonia root rot.     

Increased severity of Rhizoctonia root rot in sugar beet treated with systemic insecticides

The systemic insecticides aldicarb 15G (15% granules) at 2·6 kg active ingredient (a.i.)/ha and phorate 1OG (10% granules) at 1·7 kg a.i./ha, applied as side dressings about 1 month after planting in 1979 and 1980, significantly increased the severity of root rot, caused by Rhizoctonia solani Kühn, in sugar beet (Beta vulgaris L.). Carbofuran 10G (10% granules) at 2·2 kg a.i./ha also increased root rot, but not significantly. Numbers of harvestable roots were reduced by all treatments but significantly by phorate only. Both aldicarb and phorate were slightly fungistatic to R. solani when the pathogen was grown on potato-dextrose agar incorporating 0·5, 5·0, and 25 μg a.i./ml. Trichoderma sp., a potential antagonist of Rhizoctonia, was slightly inhibited by aldicarb and phorate initially, but soon overcame the effect. Thus, the increase in disease severity in the field may be attributable to some metabolic or physiological effect of the chemicals either on the host or on the infection process of the pathogen. Indiscriminate use of these insecticides should therefore be avoided in areas where root rot is prevalent but where insects are not a problem.     

Differential response of two pineapple cultivars (Ananas comosus (L.) Merr.) to SAR and ISR inducers against the nematode Rotylenchulus reniformis

We hypothesized that inducing systemic resistances can contribute to the control of the nematode Rotylenchulus reniformis in pineapple. In greenhouse experiments conducted in Martinique, the pineapple cultivars Smooth Cayenne and MD-2 were treated with methyljasmonate (JAME) and salicylic acid (SA), elicitors of induced systemic resistance (ISR) and systemic acquired resistance (SAR). The efficacy of the elicitors was tested by inoculating plantlets grown in individual pots with a monospecific population of R. reniformis reared on Vigna unguiculata. The final nematode populations, 45 days after inoculation on MD-2 treated with JAME were reduced by 67.0% (p = 0.006). Nematode populations on MD-2 plants treated with SA were reduced by 55.8% (p = 0.016). Nematode populations on SC were not reduced by the elicitors. In a second experiment, using split-root systems, JAME was applied to MD-2 plantlets and enzymatic activities involved in plant defense and stress responses were monitored for 14 h after treatment. Additional pots were inoculated with nematodes 24 h after JAME treatment and examined ten days later. Transient stress was observed along with an increase in enzymatic response after inoculation with nematodes. These results showed that the MD-2 was primed through an ISR by JAME. The question now arises whether ISR can be specifically induced only in certain pineapple cultivars. Results are discussed from the perspective of introducing new strategies to manage pineapple nematodes.     

Toxicity of different fungicides to adult Cryptolaemus montrouzieri mulsant (Coleoptera: Coccinellidae)

Toxicity and persistence of eight fungicides (carbendazim, tridemorph, mancozeb, captafol, triadimefon, Bordeaux mixture, sulphur w.p. and sulphur dust) to Cryptolaemus montrouzieri Mulsant adults was assessed by calculating the median lethal time (LT) values in days, following probit analysis. While tridemorph 0·05% was the safest, triadimefon 0·05% was most toxic with greater persistence. Hence the spraying of tridemorph 0·05% and the release of the predator could be simultaneous.     

Response of selected soilborne fungi and bacteria to herbicides utilized in potato crop management systems in Maine

The response of nine soilborne fungi associated with potato production:Rhizoctonia solani, Fusarium solani ‘Coerculeum,’F. roseum ‘Sambucinum,’F. avenaceum, Helminthosporium solani, Verticillium alboatrum, Alternaria solani, Trihcoderma viride, andLaetisaria arvalis; and five soilborne bacteriaAzotobacter chroococcum, Bacillus subtilis, Erwinia carotovora subsp. carotovora,Pseudomonas aeruqinosa andPseudomonas fluorescens to the herbicides linuron, metribuzin, dinoseb, paraquat, EPTC, and dalapon were determined by growth on amended media. None of the herbicides increased radial growth of the fungi, and only dinoseb significantly (P = 0.05) reduced radial growth of all fungi at concentrations less than 64 ppm. EPTC, dalapon, linuron, paraquat, and dinoseb severely inhibited bacterial survival (91, 82, 44%, respectively) when evaluated on trypticase soy and cimmons citrate agar media amended with herbicides at concentrations of 1, 10, and 100 ppm. Dinoseb, when applied to field soil in pots, significantly reduced total microorganism populations in the top 5 cm of soil. Results suggest that soil applications of herbicides can selectively inhibit soil microflora with possible effects on disease incidence and severity, and may also be a factor in determining effectiveness of biolgical control agents.     

Effects on milk production of feeding silage and sugar-beet pulp as separate components, in a mixed ration or as an ensiled blend

Twenty early-lactation British Friesian dairy cows were used in a five-treatment, partially balanced change-over design experiment, consisting of four periods each of 4 weeks' duration. Three treatments consisted of offering ensiled blends of silage and sugar-beet pulp produced by mixing 40 (S40), 80 (S80) and 120 (S120)kg beet pulp t^?1 herbage at ensiling. In two further treatments, an untreated silage was supplemented with 5 kg of beet pulp daily, either mixed with the silage prior to feeding (SM) or offered in two equal feeds each day (ST). Silage was offered ad libitum in all treatments, while in addition all cows received 1 kg d^?1 of a concentrate supplement containing 470 g crude protein kg^?1 fresh weight. Dry-matter intakes and milk fat + protein yields increased with increasing level of beet pulp inclusion in the diet, irrespective of whether it was offered in the form of an ensiled blend or as a supplement to an untreated silage. With the exception of D-value (digestible organic matter in the dry matter), which was significantly higher with treatments SM and ST than with the ensiled blend treatment (S80), no significant differences were identified in total ration digestibility or in the efficiency of nitrogen or energy utilization between methods of beet pulp inclusion in the diet. However, offering beet pulp in the form of an ensiled blend reduced the acetate/propionate ratio in rumen fluid compared with offering best pulp as a supplement to an untreated silage. When account is taken of differences in the efficiency of recovery of edible silage dry matter between ensilage systems and of differences in dry-matter intakes between treatments, total milk fat + protein outputs per 10000 kg herbage dry matter ensiled were 55 (s.e. 50·9) and 78 (s.e. 47·5) kg lower when equal quantities of beet pulp were offered as part of an ensiled blend rather than as a supplement to an untreated silage, as in treatments SM and ST respectively. However, these differences were non-significant. Alternatively, in order to produce an equal milk output from ensiling a given quantity of herbage, 12·5 and 16·2% more beet pulp would have been required if the beet pulp had been mixed with the herbage at ensiling, rather than offered as a supplement, as in treatments SM and ST respectively.     

The effect of dry feed additives on the nutritive value of silage

Silages were prepared in late September from a mixed crop of perennial ryegrass and white clover with low dry matter and high nitrogen content. Six different treatments were used during ensiling; addition of either molassed sugar beet pulp or rolled barley, at 50 kg and 25 kg (t fresh grass)^?1, formic acid at 51 t^?1 and no additive (control). All silages were well fermented with low levels of ammonia and pH. The addition of rolled barley or sugar beet pulp increased the dry matter content of the silages incrementally and appeared to assist the retention of nitrogen in the silage. Dry matter intakes of silages with 50 kg of barley or sugar beet pulp tonne^?1 were similar to the control silage when fed to wether sheep but at 25 kg t^?1, dry matter intake increased by 0·15 with barley and 0·04 with sugar beet pulp compared to the control. The digestibility of dry matter (DM) and organic matter (OM) were significantly higher than the control for silages treated with formic acid or high levels of barley and sugar beet pulp whereas neutral-detergent fibre (NDF) digestibility did not appear to be significantly affected. All treated silages had a significantly higher metabolizable energy (ME) content than the control, and additions of barley or sugar beet increased the ME content. The ME intakes of all treated silages were also significantly greater than those of the control, and the formic acid-treated and low barley silages were the highest. This appeared to be associated with significantly higher energy digestibility and DM intake. Addition of rolled barley during ensilage resulted in greater nitrogen intake, availability and retention compared to additions of sugar beet pulp. The higher retention with barley silages was associated with a significantly lower proportional loss of absorbed nitrogen in urine, which indicated a more efficient utilization of nitrogen. These differences require further study to determine the mechanisms involved in the interactions between the energy source and herbage protein, both during fermentation and in the rumen.     

The effect of concentrate feed level on the response of lactating dairy cows to a constant proportion of fodder beet inclusion in a grass silage-based diet

Abstract The effects of level of concentrate supplementation on the response of dairy cows to grass silage‐based diets containing a constant proportion of fodder beet were examined. Forty Holstein‐Friesian dairy cows of mixed parity were used in a 2 × 5 factorial design experiment. Two basal diet types [grass silage alone or grass silage mixed with fodder beet in a 70:30 dry matter (DM) ratio] were offered ad libitum, and the effects of five levels of concentrate supplementation (mean = 3·0, 5·3, 7·5, 9·8 and 12·0 kg DM per cow d^?1) were examined. Concentrate supplements were offered via an out‐of‐parlour feeding system. These treatments were examined in a three‐period (period length = 4 weeks) partially balanced changeover design experiment. Fodder beet inclusion had no significant effect on the estimated metabolizable energy (ME) concentration of the ration (P > 0·001). Total DM intake, estimated ME intake, milk yield, milk protein content and milk energy output all showed significant linear increases with increasing level of concentrate inclusion (P < 0·001) while, in addition, milk yield and milk energy output exhibited a significant quadratic increase (P < 0·01). The inclusion of fodder beet in the diet reduced silage DM intake (P < 0·01) but resulted in an increase in total DM intake and estimated ME intake (P < 0·001). However, inclusion of fodder beet had no significant effect on milk yield (P > 0·05), while increasing milk protein content and milk energy output (P ≤ 0·05). Milk energy output, as a proportion of estimated ME intake, was significantly (P < 0·001) reduced by fodder beet inclusion (0·44 vs. 0·38). Despite large increases in estimated ME intake with the inclusion of fodder beet at all levels of concentrate supplementation, milk energy output responses were small, resulting in an overall reduction in the efficiency of conversion of ME intake into milk energy output. An increased partitioning of dietary ME intake to tissue gain is suggested as the most likely explanation for the observations made.     

Effects on milk production of feeding silage and three levels of sugar-beet pulp either as a mixed ration or as an ensiled blend

Twenty-one British Friesian dairy cows, in mid-lactation, were used in a seven-treatment, partially balanced change-over design experiment consisting of three periods each of 4 weeks' duration. Treatments involved offering grass silage either without a sugar-beet pulp (beet pulp) supplement (US) or supplemented with beet pulp at silage/beet pulp dry matter ratios of 80:20 (C40), 65:35 (C80) and 55:45 (C120), and offered in the form of a mixed ration. A further three treatments consisted of offering ensiled blends of silage and beet pulp, produced by mixing 40 (E40), 80 (E80) and 120 (E120)kg beet pulp t^?1 of grass at ensiling. Silage was offered ad libitum on all treatments, with cows receiving 1kg d^?1 of a concentrate supplement containing 470 g crude protein kg^?1 fresh weight. Dry matter intakes increased with increasing level of beet pulp inclusion in the diet, irrespective of method of beet pulp inclusion in the diet. Similarly, milk fat + protein yields increased with increasing level of beet pulp offered. However, when comparisons were made between the two methods of beet pulp inclusion in the diet with beet pulp requirements equivalent to those obtained in treatments C40, C80 and C120, namely 2·28, 4·53 and 6·21 kg d^?1, offering beet pulp as a supplement to an untreated silage resulted in fat + protein yields of 32 (s.e.d. 9·8), 53 (s.e.d. 19·5) and 81 (s.e.d. 21·3)gd^?1 greater than would have been achieved had equivalent quantities of beet pulp been included at ensiling as part of an ensiled blend. This effect can be attributed to the higher metabolizable energy intakes with the control silage supplemented with beet pulp at feeding, a consequence of the loss of nutrients from the beet pulp fraction during ensiling, in the case of treatments E40, E80 and E120. However, when account is taken of differences in the efficiency of recovery of edible silage dry matter between ensilage systems and differences in forage dry-matter intake between treatments, overall efficiency of feed use was not significantly different between the two systems of beet pulp inclusion in the diet.     

Effluent production from grass silages treated with additives and made in large-scale bunker silos

Data from twenty experiments, conducted at ADAS Research Centres in England and Wales during 1986–92, were used to determine effluent production from additive-treated grass silages made in large-scale bunker silos. The additives compared were formic acid at 4·0 l t^–1, rolled barley at 44·0 kg t^–1, dried molassed sugar beet feed at 40·0 kg t^–1 and liquid inoculants at 2·2 l t^–1 together with a non-additive-treated control. The silages were made from herbage with an average dry-matter (DM) content of 177 (s.e. 3·8) g kg^–1 and water-soluble carbohydrate content of 140 g kg^–1 DM. Average silage toluene DM content was 213 (s.e. 3·8) g kg^–1. The formic acid and sugar beet feed silages were both well fermented, whereas the other silages were less well fermented. Effluent produced was determined as either effluent production (l t^–1 grass ensiled) during the 52-d period in which it was measured or peak flow (l h^–1) during the first 2 d of ensilage. Compared with non-additive-treated silage, dried molassed sugar beet feed significantly reduced both effluent production (27%) and peak flow (36%). Formic acid significantly increased peak flow (51%), but had little effect upon effluent production, and significantly reduced effluent N and lactic acid content. Barley and inoculant treatment had no significant effect upon effluent production. In general, poor relationships were found between DM content and effluent production. Nevertheless for silages, except those treated with absorbents or formic acid, a significant (P < 0·001) negative relationship between silage effluent production (l t^–1 grass ensiled) and the DM (g kg^–1) content of the ensiled grass was found.