Implementation costs of Agricultural Management Practices for Water Quality Improvement in the Great Barrier Reef Catchments. CSIRO: Water for Healthy Country National Research Flagship

Executive summary. In this report we analyse implementation costs and benefits for agricultural management practices, grouped into farming systems. In order to do so, we compare plot scale gross margins for the dominant agricultural production systems (sugarcane, grazing and banana cultivation) in the NRM regions Wet Tropics, Burdekin Dry Tropics and Mackay Whitsundays. Furthermore, where available, we present investment requirements for changing to improved farming systems. It must be noted that transaction costs are not captured within this project. For sugarcane, this economic analysis shows that there are expected benefits to sugarcane growers in the different regions through transitions to C and B class farming systems. Further transition to A-class farming systems can come at a cost, depending on the capital investment required and the length of the investment period. Obviously, the costs and benefits will vary for each individual grower and will depend on their starting point and individual property scenario therefore each circumstance needs to be carefully considered before making a change in management practice. In grazing, overall, reducing stocking rates comes at a cost (reduced benefits). However, when operating at low utilisation rates in wetter country, lowering stocking rates can potentially come at a benefit. With win-win potential, extension is preferred to assist farmer in changing management practices to improve their land condition. When reducing stocking rates comes at a cost, incentives may be applicable to support change among farmers. For banana cultivation, the results indicate that the transition to C and B class management practices is a worthwhile proposition from an economic perspective. For a change from B to A class farming systems however, it is not worthwhile from a financial perspective. This is largely due to the large capital investment associated with the change in irrigation system and negative impact in whole of farm gross margin. Overall, benefits will vary for each individual grower depending on their starting point and their individual property scenario. The results presented in this report are one possible set of figures to show the changes in profitability of a grower operating in different management classes. The results in this report are not prescriptive of every landholder. Landholders will have different costs and benefits from transitioning to improved practices, even if similar operations are practiced, hence it is recommended that landholders that are willing to change management undertake their own research and analysis into the expected costs and benefits for their own soil types and property circumstances.

Economic evaluation of precision controlled traffic farming in the Australian sugar industry: a case study of an early adopter

Controlled traffic has been identified as the most practical method of reducing compaction-related soil structural degradation in the Australian sugarcane industry. GPS auto-steer systems are required to maximize this potential. Unfortunately there is a perception that little economic gain will result from investing in this technology. Regardless, a number of growers have made the investment and are reaping substantial economic and lifestyle rewards. In this paper we assess the cost effectiveness of installing GPS guidance and using it to implement Precision Controlled Traffic Farming (PCTF) based on the experience of an early adopter. The Farm Economic Analysis Tool (FEAT) model was used with data provided by the grower to demonstrate the benefits of implementing PCTF. The results clearly show that a farming system based on PCTF and the minimum tillage improved farm gross margin by 11.8% and reduced fuel usage by 58%, compared to producers' traditional practice. PCTF and minimum tillage provide sugar producers with a tool to manage the price cost squeeze at a time of low sugar prices. These data provide producers with the evidence that investment in PCTF is economically prudent.

Nitrogen leaching from the root zone of sugarcane and bananas in the humid tropics of Australia

Loss of nitrogen in deep drainage from agriculture is an important issue for environmental and economic reasons, but limited field data is available for tropical crops. In this study, nitrogen (N) loads leaving the root zone of two major humid tropical crops in Australia, sugarcane and bananas, were measured. The two field sites, 57 km apart, had a similar soil type (a well drained Dermosol) and rainfall (∼2700 mm year -1) but contrasting crops and management. A sugarcane crop in a commercial field received 136-148 kg N ha -1 year -1 applied in one application each year and was monitored for 3 years (first to third ratoon crops). N treatments of 0-600 kg ha -1 year -1 were applied to a plant and following ratoon crop of bananas. N was applied as urea throughout the growing season in irrigation water through mini-sprinklers. Low-suction lysimeters were installed at a depth of 1 m under both crops to monitor loads of N in deep drainage. Drainage at 1 m depth in the sugarcane crops was 22-37% of rainfall. Under bananas, drainage in the row was 65% of rainfall plus irrigation for the plant crop, and 37% for the ratoon. Nitrogen leaching loads were low under sugarcane (<1-9 kg ha -1 year -1) possibly reflecting the N fertiliser applications being reasonably matched to crop requirements and at least 26 days between fertiliser application and deep drainage. Under bananas, there were large loads of N in deep drainage when N application rates were in excess of plant demand, even when applied fortnightly. The deep drainage loss of N attributable to N fertiliser, calculated by subtracting the loss from unfertilised plots, was 246 and 641 kg ha -1 over 2 crop cycles, which was equivalent to 37 and 63% of the fertiliser application for treatments receiving 710 and 1065 kg ha -1, respectively. Those rates of fertiliser application resulted in soil acidification to a depth of 0.6 m by as much as 0.6 of a unit at 0.1-0.2 m depth. The higher leaching losses from bananas indicated that they should be a priority for improved N management. Crown Copyright © 2012.

Reducing the risk of herbicide runoff in sugarcane farming through controlled traffic and early-banded application

The off-site transport of agricultural chemicals, such as herbicides, into freshwater and marine ecosystems is a world-wide concern. The adoption of farm management practices that minimise herbicide transport in rainfall-runoff is a priority for the Australian sugarcane industry, particularly in the coastal catchments draining into the World Heritage listed Great Barrier Reef (GBR) lagoon. In this study, residual herbicide runoff and infiltration were measured using a rainfall simulator in a replicated trial on a brown Chromosol with 90–100% cane trash blanket cover in the Mackay Whitsunday region, Queensland. Management treatments included conventional 1.5 m spaced sugarcane beds with a single row of sugarcane (CONV) and 2 m spaced, controlled traffic sugarcane beds with dual sugarcane rows (0.8 m apart) (2mCT). The aim was to simulate the first rainfall event after the application of the photosynthesis inhibiting (PSII) herbicides ametryn, atrazine, diuron and hexazinone, by broadcast (100% coverage, on bed and furrow) and banding (50–60% coverage, on bed only) methods. These events included heavy rainfall 1 day after herbicide application, considered a worst case scenario, or rainfall 21 days after application. The 2mCT rows had significantly (P < 0.05) less runoff (38%) and lower peak runoff rates (43%) than CONV rows for a rainfall average of 93 mm at 100 mm h−1 (1:20 yr Average Return Interval). Additionally, final infiltration rates were higher in 2mCT rows than CONV rows, with 72 and 52 mm h−1 respectively. This resulted in load reductions of 60, 55, 47, and 48% for ametryn, atrazine, diuron and hexazinone from 2mCT rows, respectively. Herbicide losses in runoff were also reduced by 32–42% when applications were banded rather than broadcast. When rainfall was experienced 1 day after application, a large percentage of herbicides were washed off the cane trash. However, by day 21, concentrations of herbicide residues on cane trash were lower and more resistant to washoff, resulting in lower losses in runoff. Consequently, ametryn and atrazine event mean concentrations in runoff were approximately 8 fold lower at day 21 compared with day 1, whilst diuron and hexazinone were only 1.6–1.9 fold lower, suggesting longer persistence of these chemicals. Runoff collected at the end of the paddock in natural rainfall events indicated consistent though smaller treatment differences to the rainfall simulation study. Overall, it was the combination of early application, banding and controlled traffic that was most effective in reducing herbicide losses in runoff. Crown copyright © 2012

Resistance gene analogues in sugarcane and sorghum and their association with quantitative trait loci for rust resistance

Fifty-four different sugarcane resistance gene analogue (RGA) sequences were isolated, characterized, and used to identify molecular markers linked to major disease-resistance loci in sugarcane. Ten RGAs were identified from a sugarcane stem expressed sequence tag (EST) library; the remaining 44 were isolated from sugarcane stem, leaf, and root tissue using primers designed to conserved RGA motifs. The map location of 31 of the RGAs was determined in sugarcane and compared with the location of quantitative trait loci (QTL) for brown rust resistance. After 2 years of phenotyping, 3 RGAs were shown to generate markers that were significantly associated with resistance to this disease. To assist in the understanding of the complex genetic structure of sugarcane, 17 of the 31 RGAs were also mapped in sorghum. Comparative mapping between sugarcane and sorghum revealed syntenic localization of several RGA clusters. The 3 brown rust associated RGAs were shown to map to the same linkage group (LG) in sorghum with 2 mapping to one region and the third to a region previously shown to contain a major rust-resistance QTL in sorghum. These results illustrate the value of using RGAs for the identification of markers linked to disease resistance loci and the value of simultaneous mapping in sugarcane and sorghum.

Understanding the barriers to the implementation of precision agriculture in the central region

There is an increasing requirement for more astute land resource management through efficiencies in agricultural inputs in a sugar cane production system. A precision agriculture (PA) approach can provide a pathway for a sustainable sugarcane production system. One of the impediments to the adoption of PA practices is access to paddock-scale mapping layers displaying variability in soil properties, crop growth and surface drainage. Variable rate application (VRA) of nutrients is an important component of PA. However, agronomic expertise within PA systems has fallen well behind significant advances in PA technologies. Generally, advisers in the sugar industry have a poor comprehension of the complex interaction of variables that contribute to within-paddock variations in crop growth. This is regarded as a significant impediment to the progression of PA in sugarcane and is one of the reasons for the poor adoption of VRA of nutrients in a PA approach to improved sugar cane production. This project therefore has established a number of key objectives which will contribute to the adoption of PA and the staged progression of VRA supported by relevant and practical agronomic expertise. These objectives include provision of base soils attribute mapping that can be determined using Veris 3100 Electrical Conductivity (EC) and digital elevation datasets using GPS mapping technology for a large sector of the central cane growing region using analysis of archived satellite imagery to determine the location and stability of yield patterns over time and in varying seasonal conditions on selected project study sites. They also include the stablishment of experiments to determine appropriate VRA nitrogen rates on various soil types subjected to extended anaerobic conditions, and the establishment of trials to determine nitrogen rates applicable to a declining yield potential associated with the aging of ratoons in the crop cycle. Preliminary analysis of archived yield estimation data indicates that yield patterns remain relatively stable overtime. Results also indicate the where there is considerable variability in EC values there is also significant variation in yield.

Sugarcane productivity response to different fallow and soybean residue management practices in the Bundaberg district

GRAIN LEGUME ROTATIONS underpin the sustainability of the Australian sugarcane farming system, offering a number of soil health and environmental benefits. Recent studies have highlighted the potential for these breaks to exacerbate nitrous oxide (N2O) emissions. An experiment was implemented in 2012 to evaluate the impact of two fallow management options (bare fallow and soybean break crop) and different soybean residue management practices on N2O emissions and sugarcane productivity. The bare fallow plots were conventionally tilled, whereas the soybean treatments were either tilled, not tilled, residue sprayed with nitrification inhibitor (DMPP) prior to tillage or had a triticale ‘catch crop’ sown between the soybean and sugarcane crops. The fallow plots received either no nitrogen (N0) or fully fertilised (N145) whereas the soybean treatments received 25 kg N/ha at planting only. The Fallow N145 treatment yielded 8% more cane than the soybean tilled treatment. However there was no statistical difference in sugar productivity. Cane yield was correlated with stalk number that was correlated to soil mineral nitrogen status in January. There was only 30% more N/ha in the above-ground biomass between the Fallow N145 and the Fallow N0 treatment; highlighting poor fertiliser nitrogen use efficiency. Supplying adequate nitrogen to meet productivity requirements without causing environmental harm remains a challenge for the Australian sugar industry. The soybean direct drill treatment significantly reduced N2O emissions and produced similar yields and profitability to the soybean tilled treatment (outlined in a companion paper by Wang et.al. in these proceedings). Furthermore, this study has highlighted that the soybean direct drill technique provides an opportunity to enable grain legume cropping in the sugarcane farming system to capture all of the soil health/environmental benefits without exacerbating N2O emissions from Australian sugarcane soils.

Soybean rotation and crop residue management to reduce nitrous oxide emissions from sugarcane soils

NITROUS OXIDE (N2O) IS a potent greenhouse gas and the predominant ozone-depleting substance in the atmosphere. Agricultural nitrogenous fertiliser use is the major source of human-induced N2O emissions. A field experiment was conducted at Bundaberg from October 2012 to September 2014 to examine the impacts of legume crop (soybean) rotation as an alternative nitrogen (N) source on N2O emissions during the fallow period and to investigate low-emission soybean residue management practices. An automatic monitoring system and manual gas sampling chambers were used to measure greenhouse gas emissions from soil. Soybean cropping during the fallow period reduced N2O emissions compared to the bare fallow. Based on the N content in the soybean crop residues, the fertiliser N application rate was reduced by about 120 kg N/ha for the subsequent sugarcane crop. Consequently, emissions of N2O during the sugarcane cropping season were significantly lower from the soybean cropped soil than those from the conventionally fertilised (145 kg N/ha) soil following bare fallow. However, tillage that incorporated the soybean crop residues into soil promoted N2O emissions in the first two months. Spraying a nitrification inhibitor (DMPP) onto the soybean crop residues before tillage effectively prevented the N2O emission spikes. Compared to conventional tillage, practising no-till with or without growing a nitrogen catch crop during the time after soybean harvest and before cane planting also reduced N2O emissions substantially. These results demonstrated that soybean rotation during the fallow period followed with N conservation management practices could offer a promising N2O mitigation strategy in sugarcane farming. Further investigation is required to provide guidance on N and water management following soybean fallow to maintain sugar productivity.

Crop nutrient application rates

This guide provides information on how to match nutrient rate to crop needs by varying application rates and timing between blocks, guided by soil tests, crop class, cane variety, soil type, block history, soil conditioners and yield expectations.

Strategies to limit the impact of nematode pressure on sugarcane productivity in the Isis

Two trials were done in this project. One was a continuation of work started under a previous GRDC/SRDC-funded activity, 'Strategies to improve the integration of legumes into cane based farming systems'. This trial aimed to assess the impact of trash and tillage management options and nematicide application on nematodes and crop performance. Methods and results are contained in the following publication: Halpin NV, Stirling GR, Rehbein WE, Quinn B, Jakins A, Ginns SP. The impact of trash and tillage management options and nematicide application on crop performance and plant-parasitic nematode populations in a sugarcane/peanut farming system. Proc. Aust. Soc. Sugar Cane Technol. 37, 192-203. Nematicide application in the plant crop significantly reduced total numbers of plant parasitic nematodes (PPN) but there was no impact on yield. Application of nematicide to the ratoon crop significantly reduced sugar yield. The study confirmed other work demonstrating that implementation of strategies like reduced tillage reduced populations of total PPN, suggesting that the soil was more suppressive to PPN in those treatments. The second trial, a variety trial, demonstrated the limited value of nematicide application in sugarcane farming systems. This study has highlighted that growers shouldn’t view nematicides as a ‘cure all’ for paddocks that have historically had high PPN numbers. Nematicides have high mammalian toxicity, have the potential to contaminate ground water (Kookana et al. 1995) and are costly. The cost of nematicide used in R1 was approx. $320 - $350/ha, adding $3.50/t of cane in a 100 t/ha crop. Also, our study demonstrated that a single nematicide treatment at the application rate registered for sugarcane is not very effective in reducing populations of nematode pests. There appears to be some levels of resistance to nematodes within the current suite of varieties available to the southern canelands. For example the soil in plots that were growing Q183 had 560% more root knot nematodes / 200mL soil compared to plots that grew Q245. The authors see great value in investment into a nematode screening program that could rate varieties into groups of susceptibility to both major sugarcane nematode pests. Such a rating could then be built into a decision support ‘tree’ or tool to better enable producers to select varieties on a paddock by paddock basis.

Estudio de la eficiencia de utilización del fertilizante nitrogenado en los pastos bajo las condiciones de la III región (Managua)

Se realizó un estudio a partir de la recopilación de diferentes trabajos experimentales y en condiciones de producción realizados bajo las características de la Calera, Chiltepe y ANILIB, en el tema de fertilización nitrogenada en los pastos: estrella (Cynodon nlemfluensis), bermuda coastal (Cynodon dactylon vs coastal) y sorgo forrajero (Sorghum vulgare). Donde se compararon dosis de O, 40, 80, 90, 100, 200, 400, 600, 800 Kg N/ha/año respectivamente. Para analizar la eficiencia técnica del fertilizante se estimaron regresiones entre el rendimiento y el nivel de nitrógeno, y al calcular la respuesta igualmente se estimó la regresión entre la eficiencia de conversión (Kg MS/Kg N aplicado) y el nivel de nitrógeno, encontrándose buenos ajustes con las funciones cuadráticas (r= 0.9, 0.5) para rendimiento y respuesta respectivamente. Obteniéndose la máxima de conversión con dosis de 200 - 300 Kg N/ha/año. Además la amplia serie de niveles de N permitió conocer el potencial de respuesta de diferentes pastos durante la estación lluviosa y seca, siendo en esta última donde se produjo los más bajos valores de rendimiento. Se encontraron el mayor efecto del nivel de fertilización que de la edad. Así como la diferencia entre las especies estudiadas, resultando superior el pasto estrella en un 69% que el sorgo. Por otra parte la fuente nitrógeno aplicado fue superior al utilizar sulfato de amonio con dosis elevada y el nitrato de amonio con aplicaciones bajas de nitrógeno.

Adaptacion de cuatro lineas de alfalfa forrajera (Medicago sativa L.) a las condiciones climaticas de la Hacienda Las Mercedes, campo y vivero

Con el objeto de evaluar el comportamiento adaptativo de cuatro líneas de alfalfa (Medicago sativa L.) en condiciones de campo y de vivero, se realizó un estudio en la Hacienda Las Mercedes, propiedad de la Universidad Nacional Agraria, ubicada en la ciudad de Managua Km 11 carretera norte, , entrada al CARNIC 2 km al lago. Teniendo su ubicación geográfica en un cuadrante con las siguientes coordenadas: 12°10'14"a 12"08'05" en latitud Norte y 86.10'22" a 86"09'44" longitud Oeste. El estudio se realizó en dos fuses 1) de campo y 2) en vivero. En ambos se determinó el grado de adaptación de cuatro líneas de alfalfa (Medicago sativa L.), tres procedentes de Texas-EE UU (8L418, 105916 y 9818) y una de Sébaco-Nicaragua (l3-A50) donde se ha establecido por más de tres años. El ensayo de campo se estableció en un área que anteriormente fue utilizada para la siembra de sorgo forrajero y el de vivero se realizó en el vivero de la UNA, en la misma finca. Se consideró cada una de las líneas como tratamiento. El Diseño experimental usado para ambas fases fue de bloques completos al azar (BCA), con 4 repeticiones. En campo con parcelas experimentales fueron de 4 m2 (2 m x 2 m), para un área total de 120m2 Se sembraron 6 surcos a una distancia de 30 cm entre surco y 14 plantas por surcos distanciados a 15 cm. Se realizó análisis de varianza utilizando programa SAS versión 99, cuando se encontró diferencias significativas o altamente significativas para tratamientos se realizaron pruebas de medias según Duncan. El terreno se preparó de forma convencional, con una chapea inicial, un paso de arado y gradeo de forma mecanizada, posteriormente se realizó la estructuración del diseño de campo. Las variables evaluadas según las condiciones de campo fueron: germinación, altura de la plantas, daños por plaga y enfermedades y ramificación, en las condiciones de vivero fueron: germinación, sobrevivencia, altura (cm), daños por plagas y enfermedades. Como resultado se obtuvo que 3 de las líneas presentaron buena germinación en condiciones de campo y vivero siendo la de mejor comportamiento la línea 13A-50 con un promedio del 97%. Para altura la línea 9818 presentó el mejor comportamiento en condiciones de campo con rangos de 48cm - 58 cm manteniendo superioridad durante el estudio en comparación con el resto de las líneas evaluadas. En daños por plagas la línea 8L418 la de menor afectación, y la más afectada fue la línea l3A-50. En daños por enfermedades la línea 9818 obtuvo los mayores daños en los niveles de moderado a muy grave y la línea l3A-50 fue la de menor incidencia. Todas las líneas presentaron una ramificación media de 30%, siendo la línea 105916 la de mejor comportamiento. En vivero la línea l3A-50 presentó la mejor altura. La línea 9818 fue la de mejor adaptabilidad en condiciones de campo, seguida de la línea BA-50. Pero en condiciones de vivero la línea 13A-50 fue la de mejor adaptabilidad, seguida de la línea 8L418.en resumen la línea l3A-50 fue la de mejor comportamiento adaptativo.

Producción y calidad de la biomasa de Zea mays, Sorghum bicolor, Oriza sativa en alfombra forrajera hidropónica.

Con el objetivo de evaluar los tratamientos Zea mays, Sorghum bicolor y Oriza sativa, para determinar su rendimiento y composición química, como alfombra forrajera hidropónico, se realizó un ensayo en el Invernadero del Departamento de Protección Vegetal y Forestal (DEPAF) - Universidad Nacional Agraria, Managua, ubicada en el km 12 ½ carretera norte. Como sustrato para la alfombra se utilizó heno del pasto Cubano CT - 115 (Pennisetum purpureum x P. tiphoydes). Se utilizó un Diseño Completo al Azar, con tres tratamientos y, tres repeticiones. Como unidad experimental se utilizó la cantidad de 1000 gr (1 kg) distribuida uniformemente en bandejas plástica de 0.2034 m2. Las variables de estudio fueron; rendimiento de alfombra en verde y seca, por bandeja y por metro cuadrado; porcentajes de; materia seca, proteína cruda, fibra cruda y cenizas. Se realizaron Análisis de Varianza y, separaciones de medias, usando Duncan (P<0.05). Para el análisis estadístico las variables codificadas en porcentajes se transformaron, según, 2 arco seno p (Dos veces Arco seno de la raíz cuadrada de la proporción). No hubo diferencias significativas (P>0,05) para el rendimiento por bandeja de alfombra en verde entre tratamientos, pero sí para el rendimiento (kg) por bandeja de materia seca (P<0.05) entre la producción del arroz (0.91) y sorgo (0.65), no así entre el arroz y maíz, ni entre el maíz y el sorgo. Resultados similares se encontraron para la producción por m2. No se encontraron diferencias significativas (P>0.05) entre los tres cultivos, oscilando la producción desde 23.59 a 28.35 kg/m2, para sorgo y maíz respectivamente. Se encontraron diferencias significativas (P<0.05) entre tratamientos para la producción de biomasa seca, la mayor producción la obtuvo el arroz y la menor el sorgo (4.48 y 3.22 kg/m2). La gramínea con el porcentaje de MS más alto fue el arroz (16.48), que mostró diferencias significativas (P<0,05) con respecto al sorgo y el maíz; el maíz presentó los porcentajes de MS más bajos (12.41). Respecto a la proteína cruda se encontraron diferencias significativas (P<0.05) entre los cultivos. El mayor contenido (%) se obtuvo en el sorgo (15.01) y el menor (9.76) en el arroz. Los contenidos de fibra cruda presentaron diferencias significativas (P< 0.05) entre el arroz con el maíz y sorgo, no así entre sorgo y maíz. El arroz presentó mayores contenidos (34.59 %), registrándose el menor tenor en el sorgo (19.71 %). Los contenidos de cenizas presentaron las mismas tendencias que la fibra cruda en cuanto a las diferencias estadísticas encontradas. El mayor contenido (%) de cenizas se obtuvo en el arroz (9.31) y el menor para el maíz (4.51). La alfombra forrajera hidropónica es una alternativa viable para la producción de forraje de alta calidad e inocuidad.