Empirical research on the evaluation model and method of sustainability of the open source ecosystem

The development of open source brings new thinking and production modes to software engineering and computer science, and establishes a software development method and ecological environment in which groups participate. Regardless of investors, developers, participants, and managers, they are most concerned about whether the Open Source Ecosystem can be sustainable to ensure that the ecosystem they choose will serve users for a long time. Moreover, the most important quality of the software ecosystem is sustainability, and it is also a research area in Symmetry. Therefore, it is significant to assess the sustainability of the Open Source Ecosystem. However, the current measurement of the sustainability of the Open Source Ecosystem lacks universal measurement indicators, as well as a method and a model. Therefore, this paper constructs an Evaluation Indicators System, which consists of three levels: The target level, the guideline level and the evaluation level, and takes openness, stability, activity, and extensibility as measurement indicators. On this basis, a weight calculation method, based on information contribution values and a Sustainability Assessment Model, is proposed. The models and methods are used to analyze the factors affecting the sustainability of Stack Overflow (SO) ecosystem. Through the analysis, we find that every indicator in the SO ecosystem is partaking in different development trends. The development trend of a single indicator does not represent the sustainable development trend of the whole ecosystem. It is necessary to consider all of the indicators to judge that ecosystem’s sustainability. The research on the sustainability of the Open Source Ecosystem is helpful for judging software health, measuring development efficiency and adjusting organizational structure. It also provides a reference for researchers who study the sustainability of software engineering

Sustainable Agriculture: Case Study in Barebbo Village, Bone Regency

Ecological sustainability refers to the maintenance of the environmental order on earth so that its sustainability can be maintained. Three aspects must be considered to maintain the integrity of the environmental order, namely; carrying capacity, assimilative capacity and sustainable use of recoverable resources. Environmental development management is essential for ecosystem sustainability. Macroeconomic sustainability guarantees sustainable economic progress and encourages economic efficiency through structural and national reforms. Food security is defined as a condition for the fulfillment of food for households which is reflected in the availability of sufficient food, both in quantity and quality, safe, equitable, and affordable

The significance of mycorrhizal fungi for crop productivity and ecosystem sustainability in organic farming systems

Mycorrhizal fungi are widespread in agricultural systems and are especially relevant for organic agriculture because they can act as natural fertilisers, enhancing plant yield. Here we explore the various roles that mycorrhizal fungi play in sustainable farming systems with special emphasis on their contribution to crop productivity and ecosystem functioning. We review the literature and provide a number of mechanisms and processes by which mycorrhizal fungi can contribute to crop productivity and ecosystem sustainability. We then present novel results, showing that mycorrhizal fungi can be used to suppress several problematic agricultural weeds. Our results highlight the significance of mycorrhizal fungi for sustainable farming systems and point to the need to develop farming systems in which the positive effect of these beneficial soil fungi is optimally being utilized

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

Business ecosystem sustainability management

The article is devoted to the issues of the sustainable development of such a representative of the ecosystem as a special economic zone. The subject of the study is the organizational interactions that arise between resident companies, clusters within the technopolis and the management company. The conducted research is aimed at determining the criteria for the expediency of selecting participants in the ecosystem, identifying indicators for assessing the effectiveness of their joint functioning. The objectives of the study were to identify key trends in the formation of business ecosystems; to formulate the principles of managing the sustainability of the ecosystem, to determine the levels of sustainability and indicators for measuring it. The methodology of scientific research is based on the assessment of the digital maturity of business processes, the theory of interaction between organizations and the platform approach. Statistical processing methods of reports on management companies, grouping and rating the attractiveness of technoparks for investors were used during the study. The article formulates the principles of sustainability of the business ecosystem, defines the levels and indicators for their assessment. The results of the study are addressed to employees of management companies of special economic zones, heads of executive authorities responsible for the development of industrial policy. The development of research in the field of sustainable development of business ecosystems is related to the consideration of information security issues for agents of the digital economy

Using RIVPACS for studies on conservation and biodiversity

Invertebrate conservation relies not only on public support and political will, but also on possessing an adequate understanding of the distribution and ecology of invertebrate species and communities. In the UK, RIVPACS is making an important contribution to assessing the conservation importance of river invertebrate assemblages. So far, work has largely centred on using RIVPACS as an integral part of SERCON (System for Evaluating Rivers for Conservation), in which data collected using the standard RIVPACS method are interpreted with reference to conservation criteria such as species richness and representativeness. Applications of RIVPACS to other areas of conservation - whether providing information on the ecological requirements of rare species, monitoring the success of river restoration projects, or making broader assessments of sustainability - are probably more limited, but merit further examination. It is important to develop closer links between RIVPACS and techniques such as SERCON and RHS (River Habitat Survey) in order to maximise the benefit each can bring tostudies on conservation and biodiversity. It should also be recognised that there are limitations in transferring such systems to other countries where approaches to nature conservation may be very different

Coupling growth and mortality models to detect climate drivers of tropical forest dynamics

Climate models for the coming century predict rainfall reduction in the Amazonian region, including deep changes in water availability for tropical rainforests. Here, we develop an integrated modeling framework in order test the extent to which climate variables related to water regime, temperature and irradiance shape the long-term dynamics of neotropical forests. In a first step, a Bayesian hierarchical model was built to couple tree growth and tree mortality processes into a single modeling framework. Coupling a longitudinal growth model with a punctual mortality model was not an easy task. Past growth, related to the expected growth, was used as an indicator of the individual tree vigor, which is supposed to play a key role in the mortality process. A MCMC approach is used to estimate all the parameters simultaneously. The individual-centered model was explicitly designed to deal with diverse sources of uncertainty, including the complexity of the mortality process itself and the field data, especially historical data for which taxonomic determinations were uncertain. Functional traits are integrated as proxies of the ecological strategies of the trees and permit generalization among all species in the forest community. Data used to parameterize the model were collected at Paracou study site, a tropical rain forest in French Guiana, where 20,408 trees have been yearly censured over 18 years. Climate covariates were finally added as external drivers of the forest dynamics. These drivers are selected in a list of climate variables for which future predictions are available thanks to the IPCC scenario. Amongst climate variables, we highlight the predominant role of water availability in determining interannual variation in the dynamic of neotropical forests. And we stressed the need to include these relationships into forest simulators to test, in silico, the impact of different climate scenarios on the future dynamics of the rainforest. (Texte intégral