Assessment The Agricultural Student's Attitudes Towards Organic Farming (Case of Iran)

A surveying research was conducted to study and recognize the knowledge and attitude of students toward organic farming at three universities of Iran in 2010. Our consumption patterns and environmental behaviors are rooted in long lived practices and habits. Social norms and values are among the factors that determine what we buy or what we think about organic products. As they are largely unconscious it is difficult to change them. Students are the agriculturist of tomorrow; therefore policies aimed at developing organic farming should address the needs of this group. To discover agriculturist's knowledge organic farming, a survey among 100 agricultural students was conducted. Questionnaire was used to examine students’ knowledge regarding organic farming. Finding is shown that agriculturist's awareness towards organic farming are low, especially in Pests management and Organic product standards aspect. The result of factor analysis showed that nine factors named as concepts, Nutrient safety and security, Organic farming economic, Organic farming extension, Social issue, fertility, Pests management, Environment safety, Organic product standard explained 73.71% of total variance that the first factor accounts for 11.98% of the variance, the second 10.954%, the third 9.191%, the fourth 8.505%, the fifth 8.426%, the sixth 7.536%, the seventh 7.015%, the eighth 5.746% and the ninth 4.364%. In conclusion, to enhance student knowledge about organic farming, it is important that curriculum develops for familiar student with organic farming practices and concepts such as: ecological equilibrium, agro ecosystem sustainability, new technology and indigenous knowledge, nutrition value, human safety, favorite yield production, soil structure improvement, erosion reduces and etc

Response of Root Properties to Tripartite Symbiosis between Lucerne (Medicago sativa L.), Rhizobia and Mycorrhiza Under Dry Organic Farming Conditions

It is generally considered that root turnover is a major contributor to organic matter and mineral nutrient cycles in organic managed agroecosystems. Approach: This study designed to investigate whether microbial activity could affect on root properties of lucerne in an organically managed field under dry weather conditions. The trial was laid out as a factorial experiment in the fields of the University of Natural Resources and Applied Life Sciences, Vienna-Austria at Raasdorf in 2007. The experimental factors of Sinorhizobium meliloti and arbuscular mycorrhiza (AM) including Glomus etunicatum, G. intraradices and G. claroideum and irrigation levels were tested. Results: Results showed that increasing water deficit affected root dry weigh, specific root mass and root length significantly at 1% level and co-inoculation of rhizobium and mycorrhiza with irrigation could increase all root parameters. Data’s of variance analysis for mycorrhizal colonization showed that main effect of using mycorrhiza had significant effects on root parameters at 5% and 1% probability level in first and second harvest, respectively. Results of mean comparisons by Duncan’s multiple range test showed that mycorrhizal colonization was higher in the inoculated treatments by rhizobium , mycorrhiza and irrigated plots in both harvests. Double interaction of mycorrhiza and irrigation was higher in both harvests (37.05% and 65.73%, respectively). Conclusion: Hence, it can be suggested that the tripartite symbiosis of S. meliloti, AM and lucerne can improve the performance of lucerne in organic farming and under dry conditions. Such traits could be incorporated into breeding programs to improve drought tolerance especially in organic fields

Suitability of drought tolerance indices for selecting alfalfa (Medicago sativa L.) genotypes under organic farming in Austria

In eastern Austria, alfalfa is usually grown as a rainfed crop in crop rotations in organic farming systems, where year-to-year rainfall fluctuations cause different levels of drought stress. To identify the suitability of different alfalfa genotypes and drought tolerance indices, 18 contrasting alfalfa genotypes were evaluated under irrigated and rainfed conditions at the research station of the University of Natural Resources and Life Sciences (BOKU), Vienna, Austria, during 2006-08. The first study year (2006) was considered as the establishment year. Five drought tolerance selection indices were estimated based on shoot dry matter, total biomass yield and biological nitrogen fixation (BNF) data. The correlation between irrigated and rainfed performances increased (from r=-0.17 to 0.56) with decreasing stress intensity from the first to the second year. Genotypes Sitel, Plato ZS, Vlasta and NS-Banat were the best genotypes based on their performance under both conditions. Drought tolerance selection indices TOL and SSI showed high correlations (r = 0.32 to 0.81) only with rainfed performance, and SSI was the index that best identified genotypes with high yield potential under rainfed conditions. Indices STI and GMP were the ones that best identified genotypes with high performance under both conditions

Tripartite symbiosis of Lentil (Lense culinaris L.), Mycorrhiza and Azospirillum brasilense under Rainfed Condition

A field experiment was conducted aiming to determine the possibility of improving the lentil performance when co-inoculated with Vesicular Arbuscular Mycorrhiza (VAM) fungi and Azospirillum under natural rain-fed conditions, in Iran. Results showed the substantial impact of VAM fungi on grain protein, root colonization and shoot dry weight. Highest value for shoot dry weight recorded in plants which inoculated with G. intraradices and highest values for root colonization and grain protein content was observed in plants which inoculated with G. mosseae. Also, Azospirillum had a significant effect on shoot dry weight and root colonization. A significant differences on grain protein content observed when combination of both microorganisms have been used

Feasibility Study on Reducing Lead and Cadmium Absorption by Alfalfa (Medicago scutellata L.) in a Contaminated Soil Using Nano-Activated Carbon and Natural Based Nano-Zeolite

The first risk posed by heavy metal pollution in an ecosystem is metal accumulation in the biomass of growing plants, which has harmful effects on human health. Natural-based nanoparticles are efficient in remediating environmental pollutants because they have a high surface/volume ratio, high chemical activity and produce no harmful side-products. The present study investigates the capacity of natural-based nano-porous adsorbents for reducing the availability of heavy metals to annual alfalfa (Medicago scutellata L.) roots and keeps them in soil. In a factorial experiment based on a randomized design (with four replications), three nano-adsorbents (nano-activated carbon, natural nano-zeolite and modified nano-zeolite) and two heavy metals (lead and cadmium) have been tested. The results demonstrated that applying the highest rate of activated carbon and modified nano-zeolite reduced shoot Pb content by 34% and 33.2%, and shoot Cd content by 35.5% and 46.7%, respectively, compared with the adsorbent-free control

Functional near-infrared spectroscopy:A novel tool for detecting consciousness after acute severe brain injury

Recent advancements in functional neuroimaging have demonstrated that some unresponsive patients in the intensive care unit retain a level of consciousness that is inconsistent with their behavioral diagnosis of awareness. Functional near-infrared spectroscopy (fNIRS) is a portable optical neuroimaging method that can be used to measure neural activity with good temporal and spatial resolution. However, the reliability of fNIRS for detecting the neural correlates of consciousness remains to be established. In a series of studies, we evaluated whether fNIRS can record sensory, perceptual, and command-driven neural processing in healthy participants and in behaviorally nonresponsive patients. At the individual healthy subject level, we demonstrate that fNIRS can detect commonly studied resting state networks, sensorimotor processing, speech-specific auditory processing, and volitional command-driven brain activity to a motor imagery task. We then tested fNIRS with three acutely brain injured patients and found that one could willfully modulate their brain activity when instructed to imagine playing a game of tennis—providing evidence of preserved consciousness despite no observable behavioral signs of awareness. The successful application of fNIRS for detecting preserved awareness among behaviorally nonresponsive patients highlights its potential as a valuable tool for uncovering hidden cognitive states in critical care settings.</p

A Global Vision and Strategy for Organic Farming Research. First Draft.

Organic agriculture world-wide offers the promise of a future to produce and distribute food and other farm products in a healthy, ecologically sound, truly sustainable and fair way. The full benefits of organic agriculture are just now being realized—from ecosystem services to the provision of healthier food - yet, to reach its full potential organic farming needs to address many challenges. While organic agriculture has grown in strength and is in the most favorable position it has ever been in with respect to market conditions, government policies and international institutional support, it still does not have adequate resources to continue its expansion. The Technology Innovation Platform of IFOAM (TIPI) has developed a vision and an agenda to advance organic agriculture through research, development, innovation and technology transfer. TIPI’s vision recognizes that current technologies based on heavy use of external inputs that are toxic and pollute the environment come with a price. Investments in ecosystem services and the development of technologies that are productive, stable, adaptable, resilient, and fairly shared are much more likely to sustain the world’s population in a rapidly changing environment. Sustainable pathways to innovation will require engagement of all stakeholders in a science driven multi-disciplinary approach. Such an approach seeks to (1) Empower rural areas, (2) Provide eco-functional intensification that produces food and ecosystem services, and (3) Provide food for the health and well-being available to all. Organic agriculture must build the capacity to fulfill the world’s food needs for the entire population if it is to fulfill its mission. The new paradigm proposed by TIPI is founded upon a whole systems approach, the engagement of farmers, researchers and other practitioners in a co-innovative approach; and open access technologies that are readily adapted to local conditions. While there are barriers and bottlenecks that will need to be overcome for this vision to be realized, TIPI calls upon the organic community to support its 14 point action plan to advance organic agriculture in a forward-thinking and innovative way

Characterizing genomic alterations in cancer by complementary functional associations.

Systematic efforts to sequence the cancer genome have identified large numbers of mutations and copy number alterations in human cancers. However, elucidating the functional consequences of these variants, and their interactions to drive or maintain oncogenic states, remains a challenge in cancer research. We developed REVEALER, a computational method that identifies combinations of mutually exclusive genomic alterations correlated with functional phenotypes, such as the activation or gene dependency of oncogenic pathways or sensitivity to a drug treatment. We used REVEALER to uncover complementary genomic alterations associated with the transcriptional activation of β-catenin and NRF2, MEK-inhibitor sensitivity, and KRAS dependency. REVEALER successfully identified both known and new associations, demonstrating the power of combining functional profiles with extensive characterization of genomic alterations in cancer genomes

Soil nutrient dynamics and plant-induced nutrient mobilisation in organic and low-input farming systems: conceptual framework and relevance

Plant nutrition practice in organic agricultural systems is sometimes reduced to a renunciation of applying readily soluble mineral fertilisers. In organic farming, however, soil nutrient stocks are regarded as an additional source of plant-available nutrients that can be mobilised by crop plants through rhizosphere effects. Therefore, unlike in conventional farming, the focus is not on replacement of the nutrients removed by the harvested products through readily soluble fertilisers enhancing nutrient concentrations in the soil solution. Instead, it is on minimising nutrient losses and supplying plant nutrients through soil-plant-microorganism interactions in which improved soil structure and enhanced soil biological activity facilitate plant-induced nutrient mobilisation and nutrient uptake under conditions of limited nutrient availability in the soil. This paper reviews these soil processes that improve the availability of macro- and micronutrients to plant roots under conditions of limited nutrient availability. It focuses on providing a conceptual framework for the different processes contributing to nutrient mobilisation and within which the various strategies for improving nutrient efficiency can be integrated in organically managed soils. Essential farm management options based on scientific views of nutrient dynamics to maintain soil fertility are addressed. With diverse, legume-based crop rotations with an adequate proportion of time dedicated to fertility building crops, careful management of manure and organic residues, and by using permitted inputs for phosphorus (P) and potassium (K), organic farms can be managed sustainably. However, efforts for recycling nutrients, mainly phosphorus, need to be enhanced