The Needs For Sustainable Crop Production Methods Environmental Sciences Essay

The Needs For sustain able-bodied train Production Methods Environmental Sciences EssayWith the world macrocosm projected to be 9 billion by 2050 and doubling of the orbicular viands aim there is need for additiond food intersection to extend the kind magnitude mouths. In a bid to increase sustainable cultivable process resultivity three important tasks need to be d champion (1) increase garnish birth per unit of land bea, (2) increase nip mother per unit of nutrients applied and (3) increasing ingathering show per unit of urine usaged. However, sustaining continuous productive jog productivity for future constituentrations without compromising environmental integrity and public heath still remains uncertain cod to fundamental shifts in politics, policies and incentives, institutions and technological advances (Tilman et al., 2002).1.1 Sustainable cultivatable play outturnSustainable culture is defined as practices that meet societal demand for food and fibre, eco schema services for healthy lives by maximizing the net benefits to family when all(prenominal) costs and benefits of the practices ar considered for both the evidence and future generations (Tilman et al., 2002 Bjrklund et al., 2009). Sustainable arable figure out deed can be achieved by utilise ecologically sound focus technologies to achieve long- barrier sustainable yields. It requires turnout economics aspects as well as considering vital issues of ecological constancy and sustainability with restoration of rude diversity and landscape (Altieri, 1995). Sustainable arable cast mathematical product should aim at meeting the needs of the present without compromising the ability of the future generation to meet their needs (Chizari and Ommani, 2009).In my own opinion, sustainable arable crop end product involves the management, ingestion and preservation of productive resources in a manner that ensures continuous provision for all needs of the presen t and future generation.1.2 Types of horticultureAgricultural types influence the level of food output signal and impact on environmental sustainability. They are by and large influenced by culture, nation type international, regional or individual political intelligence polices as well as advances in science and technology. A broad range of agricultural practices are exercised to a lower place the different agricultural types. These intromit use of agro-chemicals uniform synthetical fertiliser, herbicides, fungicides and nematicides, irrigation and use of genetically modified varieties. perfect fertiliser parenting constitutional (biological or biodynamic) nation is an agricultural production system which seeks to avoid the direct and routine use of synthetically compounded chemicals equal fertilizers, pesticides, herbicides, fungicides, nematicides, process regulators and all biocides in dictate to minimise environmental humiliation at both micro and macro level s (Lampkin, 2002 Altieri, 1995 Hole et al., 2005 Ammann, 2008). The tools for constitutive(a) factory farm include crop rotation, tillage, time of sowing, varietal resistance and diversification and biological agree. Organic tillage is currently practiced in more than 150 countries and occupies 35 million ha of agricultural land globally (IFOAM, 2009).Conservational husbandryConservational agriculture is an integrated approach to crop management which minimises soil farming and utilises agrochemicals in a manner to reduce disruption of natural biological processes. Its place features include minimum mechanical soil disturbance, permanent soil unfold and diversified crop rotations. Conservational agriculture has been advocated for by the FAO in developing countries worry Brazil, Burkina Faso and India and has reaped significant benefits analogous increased crop and livestock productivity and biodiversity saving (http//www.fao.org/ag/ca/) The agricultural practices under constitutional fertiliser and conservational agriculture give way been describe to significantly reduce the use of agrochemicals and tillage operations since they depone more on rotations, use of farmyard manure and crop residues to optimize productivity. This has resulted into a decline in the emission of GHGs like carbon dioxide and N2O (Chizari and Ommani, 2009 Brookes and Barfoot, 2008).Conventional agricultureIn unoriginal farm, farmers can use agrochemicals like synthetic fertilizers, pesticides, herbicides, fungicides, nematicides in their kingdom operations extensively without any restrictions (Altieri, 1995). Conventional farming hard relies on the application of a range of modern management systems and international inputs to achieve high yields (Hole et al., 2005). The efficient use of nutrients by hybrid varieties achieved with precision agriculture practiced under large-scale intensive farming results into high yields compared to organic fertiliser farming ( Tilman et al., 2002)AgroforestryAgroforestry denotes a sustainable land and crop management system that strives to increase yields by combining production of tree-shaped forestry crops with arable crops and or animals at the same time or sequentially on the comparable unit of land. It incorporates four main characteristics and these include complex body part, sustainability, increased productivity and socioeconomic. structurally agroforestry systems are grouped as agrisilviculture, silvo-pastoral, agro-silvo-pastoral and multipurpose forest tree production (Farrell and Altieri, 1995).Polyculture cropping systemPolyculture involves the suppuration of crops in mixtures or intercrops annual crops with annuals, annuals with perennials or perennials with perennials big in a spatial and temporal manner (Liebman, 1995). However, mixed agriculture is inhibited by the land tenure system and design of farm machinery.1.3 Impact of agricultural types on sustainable arable crop productionO rganic farmingSustainable arable crop productivity requires congruous management of soil fertility and biodiversity conservation. The productivity of organically grown food has increased annually by 15 pct with a global food market worth US$50 billion per year in general in developed countries. Organic farming has well established practices that simultaneously mitigate climate change, build resilient farming systems, soil structure and fertility and increase biodiversity which builds resistance to storms and increased pest and disease hug (IFOAM, 2009). Organic farming is inform to increase species richness with an average of 30% higher than conventional farming systems. However, other studies halt indicated a 16% negative effect on species diversity due to organic farming. lit shows that some organisms are more abundant in an organic farming system for instance smokings, predators like carabid, beetles and spiders. In addition, non-predatory species were more abundant under the conventional farming system thereof natural enemies are negatively arrogateed by conventional management. Organic farming practices are believed to be more environmental friendly than intensive agriculture which is dependent on the routine use of herbicides, pesticides and inorganic nutrient applications in the production of crops and animals (Bengtsson et al., 2005).However, practicing organic farming requires careful planning, management and decision making in order to establish a viable system and maintain farm income. The rotational design, crop types and varieties and timely soil management are important in maximising crop productivity in organic farming (HGCA, 2008). on a lower floor are some principle agronomic practices use in organic farmingPush and soak up approachThe push and pull technology has significantly resulted into increased arable productivity in many move of the world. In East Africa (EA), the technology has been exploited to maintain soil fertility, b ook pests and parasitic weed Striga. Lepidopteran stem borers like Chilo partellus, Eldana saccharina, Busseola fusca and Sesamia calamistis cause 50% yield losses to maize, sorghum and sugarcane. This technology integrated with other crop management approaches has contributed to the sustainable production of maize in EA by increasing farmers yields from 1 t/ha to 3.5t/ha with minimal inputs and currently used by 25,000 small causeer farmers.The technology involves intercropping maize with a repellent bring (Desmodium) and planting an attractive trap plant (Napier grass) as a bounce crop around the intercrop. Gravid stem borer females are repelled from the prey crop by stimuli and simultaneously attracted to the trap crop, leaving the target crop fostered. Desmodium produces some root exudates which stimulate the germination of Striga informants and others inhibit their growth after germination. This combination provides a novel means of in situ reduction of the Striga seed ba nk. Desmodium also acts perennial cover crop and able to exert its Striga control effect and together with Napier grass protect little(a) soils from erosion. Desmoduim fixes nitrogen, conserves soil moisture, enhances arthropod abundance and diversity and improves soil organic consider thereby enabling cereal cropping systems to be more resilient and adaptable to climate change while providing essential ecosystem services and making farming systems more robust and sustainable (Cook et al., 2007).Table 1 Push and pull strategies used in arable crop productionTarget biting louseProtected sourceCountryPushPullPopulation ruler usedCotton bollwormCottonAustraliaOviposition deterrent neemTrap crop maize with sugar baitInsecticides, pyrethroidesPollen beetle (Meligethes aeneus)Oilseed rape (Brassica napus)UKNon-hostile repellents lilacTrap crop turnip rapeInsectidesBiopesticide (Metarhizium anipsoliae)Adopted from (Cook et al., 2007)Biological controlBiological control involves the use of parasites, predators or pathogens to maintain another organisms population at a lower average than would occur in a naturally in their absence. The aim is to reduce and achieve long term stabilization of weeds and pests. The technique has been utilised to control the Japanese knotweed, Fallopia japonica using Aphalara itadori (http//www.cabi.org/japaneseknotweedallaiance/). Most biological control studies guard been largely palmy on a small scale and have reduced the assurance on pesticides, insecticides and herbicides thus conserving biodiversity.Despite of its potential for biodiversity conservation, organic farming has been reported to have limited output and productivity. This could be attributed to the limited use of synthetic fertilizers which results into unavailability of important soil nutrients, increased perennial weeds, pests and diseases. As a result, the organic fields are abandoned in the long head or farmers adopt conventional farming practices. All the diff erent types of agriculture should be managed in a precautionary and responsible manner to protect the health and well-being of current and future generations and the environment (Ammann, 2008).2.0 SCIENTIFIC ADVANCESscientific advances have significantly contributed to the sustainable production of arable crops to feed the increasing global population. These range from the discovery of the DNA structure and genetics by Craig and Watson and Gregor Mendel respectively to high byput genomics-based approaches. They have been exploited by plant breeders to turn in genetic diversity among crop species by crossing varieties with desired characteristics, use of mutations chemical mutagens like gamma, x- and -rays. Other scientific advances that have contributed to sustainable arable crop production include discovery of agrochemicals like fertilizers, herbicides, pesticides, insecticides, fungicides and nematicides agricultural machinery and equipments like tractors, planters, harvesters, ploughs, sprayers and irrigation equipments which facilitate precision agriculture.2.1 Impact of scientific advances on sustainable arable crop productivityMany factors impact on arable crop productivity and these include land, climate change, production economics, legislation, breeding, labour and management and agronomic practices. Scientific advances in plant breeding are reported to have a significant impact on sustainable arable crop productivity (Tong et al., 2003).Plant breedingConventional breedingAdvances through conventional breeding and genetic transformation have provided genetic change to crops like wheat, rice, maize, like, soybean resulting into sustainable increased yields. These approaches have been used to exploit heterosis and feed the increasing world population circumnavigate the effects of climate change by producing drought tolerant and disease and pest kind varieties. For instance, the production of new rice for Africa (NERICA) a cross amongst Oryza sativa indigenous to India and West African native Oryza glaberrima through inter-specific hybridization. The drought and weed resistant variety is widely adopted and cultivated under the rainfed systems in SSA (Dingkuhna et al., 1999). Its cultivation has resulted into a reduction in paddy rice growing which emits GHGs N2O and CH4 thus mitigating the adverse effects of global warming through final stage of the Ozone layer. In addition, world wheat production increased significantly due to the adoption of hybrid dwarf wheat varieties and use of agro chemicals. The hybrids have a short stature, resistant to lodging and early maturing (Peng et al., 1999). In the UK wheat yields were reported to be increasing with an average of 110kgha-1 annually though further increase in sustainable wheat productivity can be achieved through by breeding resource use efficient varieties (Austin, 1999).Genetic changeGlobally, transgenic crops are cultivated in 23 countries and occupy 114.3 million ha of l and with an average increase of more than 12% annually. The number of transgenic crop traits and hectares planted are predicted to double by 2015. The use of rDNA technology in plant breeding has resulted into sustainable arable crop production through biodiversity conservation. This has been achieved by reducing pesticides and herbicides use and adoption of reduced tillage practices (Craig et al., 2008 Bitista and Oliveira, 2009 Hillocks, 2009).The learning of insect resistant transgenic cultivars like Bt cotton transformed with Bacillus thuringiensis (Bt) gene which controls the production and expression an endotoxin inside the plant to control Lepidopteran tobacco budworm, cotton bollworm and pink bollworm pests does not require pesticides. Bacillus thuringiensis has been used as an organic pesticide for decades and poses no threat to biodiversity which makes crops transformed with the Bt gene acceptable on the organic market and have an adoption rate of over 66% and 85% in chi na and South Africa respectively (Hillocks, 2009).Despite of its potential in ensuring sustainable arable crop production GM technology has been criticised by anti GM activists as a threat to biodiversity. Concerns of horizontal transferral of antibiotic resistance markers (ARMs), allergenicity and toxicity of the new GM food products have been reported as possible threats to biodiversity (Craig et al., 2008 Bitista and Oliveira, 2009).The use of insect and herbicide resistant varieties has resulted into emergence of new pests and herbicides resistant weeds due to selection squash which results into secondary pests becoming major pests.GMOs contain ARM genes which are used in the selection process during transformation. The ARM commonly used is neomycin phosphotranferase II (nptII) which inactivates the aminoglycoside antibiotics neomycin and kanamycin. There is concern that ARMs when introduced into food or the environment could drive the evolution of drug-resistant bacteria by functioning as sources of antibiotic resistance (Craig et al., 2008).Several transgenic plants constructed to be resistant to herbicides, insecticides or diseases are transformed with genetic material containing genes coding for compounds like antimicrobial agents. These could affect non target microbiota such as nitrogen-fixing bacteria, mycorrhizal fungi and other beneficial soil microorganisms. For instance a reduction in the colonisation potential of mycorrhizal fungus Glomus mosseae has been attributed to the production of anti-fungal pathogenesis-related proteins from a transgenic tobacco plant containing -1, 3-glucanase (Araujo and Azevedo, 2003).Using insect resistant transgenic canola increases physical fitness in oilseed rape varieties expressing the Bt gene. However, pollen flow between canola cultivars with different herbicide resistance traits resulted into gene stacking causing genetic contamination of seed. In addition, gene flow can lead to development volunteer oil seed rape with multiple tolerance to several herbicides due pollination between adjacent crops (Natarajan and Turna, 2007). Controlling these super weeds requires toxic herbicides like 2, 4-D and paraquat which are hazardous to man and the environment.AgrochemicalsThe use of agrochemicals like inorganic fertilizers (NPK) during crop production has increased world crop productivity and reduced the rate of violation on natural ecosystem like forests and virgin land (Tilman et al., 2002). The increased use of fertilizers has been a major contributing factor to the increase in yield growth in developing countries since the Green Revolution. In addition, globally fertilizer use has plateaued due to a decline in its use in industrial countries and Soviet Union countries after joining the market deliverance (Fischer et al., 2009). In China increase in cereal production has been attributed to mental home of agrochemicals yields increased from 1.21 t/ha in 1961 to 4.83 t/ha in 1998 (Tong et al., 2003). It is presumed that the historical decline in crop yields is due to the genetic roof for maximal yield potential being reached.Figure 1 semipermanent trends of wheat yields in selected countries (Fischer et al., 2009)Despite their potential increased use of agrochemicals has resulted into environmental befoulment, eutrophication of water supply bodies and global warming due to its emission of GHGs and stratospheric ozone depletion (Tong et al., 2003). Environmental pollution is due to treat leaching into ground water causing nitrate toxicity due to elevated nitrate levels in drinking water chlorofluorocarbons (CFCs) released from fertilizers applied as aerosols. Eutrophication results into death of aquatic fauna and flora therefore threatening biodiversity.TechnologyAdvances in scientific technology like agricultural engineering and development of modern farm equipments and machinery has boosted the agricultural sector and is one of the factors that will ensure s ustainable arable crop productivity. The growth of irrigated battleground has expanded steadily over the last decade at 0.6 percent annually in developing countries and irrigation technology accounts for 0.2 percent in boilers suit cereal yields from 1991-2007 (Fischer et al., 2009). Irrigation equipments like sprinklers have significantly contributed to the continued cultivation of arable crops throughout the year and under drought conditions. Farm machinery like admit harvesters, sprayer, planters, ploughs among others have helped in the efficient management of farm operations. However, the use of fuels by farm machinery during farm operations has been cited as a source of GHG, CO2 leading to an increase in atmospheric CO2 levels (Brookes and Barfoot, 2008).2.2 Impact of science and policies on sustainable crop productionThe establishment land laws and policies, product prices and social economic factors like population migration, urbanization and world condescension play a s ignificant role in ensuring sustainable arable crop production.Figure 2 Shows sports stadium planted with cereals in China between 1961 and 1998 under principal government agricultural policies (Tong et al., 2003)Organic farming is viewed as a solution to biodiversity conservation and has received substantial strengthener in form of subsidy payments through EU and national government legislation. As a result the certified organic and in-conversion area within the EU increased from 0.7 to 3.3 million ha from 1993 to1999 accounting for 24.1% of global organic land area (Hole et al., 2005). In 2007, 3% of the total UK land area is managed organically (HGCA, 2008). This direct support and intervention through fixation of crownwork and floor prices protects farmers from exploitation at both the domestic and international market hence producing more crops under organic farming whilst conserving the environment. However, enacting of the healthy chair on CAP will remove restriction on f armers thus helping them to respond to new market signals, opportunities and challenges (http//ec.europa.eu/agriculture/healthcheck/index_en.htm).In SSA the cultivation of GM crops has been hindered due to lack of a biosafety legislation supporting the biotechnology policy that can allow them acquire GM crops from the biotechnology companies that hold the intellectual property rights (Hillocks, 2009).CONCLUSIONTo ensure sustainable arable crop productivity agronomic, breeding and institutional or infrastructural factors like increased coronation into research and development of appropriate tool and technologies need to be considered.