Other subject about saffron
hossein sahabi; fatemeh moallem banhangi
Abstract
In order to evaluate the trend of saffron yield and study the relationship between saffron yield fluctuations and various climatic parameters, research was designed and conducted in Mashhad, Torbat Heydariyeh, Kashmar, Birjand and Qaen during 20 years (1998-2018). According to meteorological data from ...
Read More
In order to evaluate the trend of saffron yield and study the relationship between saffron yield fluctuations and various climatic parameters, research was designed and conducted in Mashhad, Torbat Heydariyeh, Kashmar, Birjand and Qaen during 20 years (1998-2018). According to meteorological data from the last 20 years, the average rainfall decreased by 33% and the average temperature increased by 0.5 °C . On the other hand, the regression results between yield and climatic parameters indicates that the pattern of temperature rise and decreased rainfall in all studied cities was significantly in line with saffron yield declining. In this period, the study's findings also revealed that over the last 20 years, an average of 112.3 hectares of saffron cultivation have been added to the areas under cultivation of saffron and at the same time, saffron yields have dropped by an average of 0.08 kg per hectare. Climatic indicators significantly affected decreased saffron yield in Razavi and South Khorasan. The results also revealed that the average and maximum temperature were the main variables influencing the reduction of saffron yield. For instance in Torbat-e Heydarieh, the variable of average temperature predicted 42 percent of the variability of the yield and in other cities studied, the maximum temperature variable predicted between 24 and 56% of the variability of the yield. Furthermore, the results of the time series analysis of saffron yield revealed that saffron yield will show a decreasing and negative trend by 2025 in all studied cities. Up to 2025, Mashhad and Kashmar with a slope of 0.09 and 0.07 kg/ha, had the highest and lowest decreasing trends, respectively.
Agriculture
Soroor Khorramdel; Mahdi Nassiri Mahallati; Fatemeh Moallem Banhangi; Abdollah Mollafilabi
Abstract
Life cycle assessment (LCA) is a well-known and accurate methodology for comparison of environmental impacts of activities including different agricultural management systems. Since the used inputs have an important role in environmental pollution and greenhouse gas emissions, LCA have been extensively ...
Read More
Life cycle assessment (LCA) is a well-known and accurate methodology for comparison of environmental impacts of activities including different agricultural management systems. Since the used inputs have an important role in environmental pollution and greenhouse gas emissions, LCA have been extensively applied for crop species. This study was conducted to assess the environmental impact of saffron production systems based on field area (<0.5, 0.5-1 and >1 ha) in the Khorasan-e Razavi province using LCA methodology. The amounts of utilized agricultural inputs from the first year to the sixth year were collected by means of a questionnaire (13 fields from each area). In this regard, four phases, which are goal and scope definition, inventory analysis, impact assessment and interpretation, were designed to assess life cycle index with ISO14044 procedure. Functional unit were considered as one kg of flower. Three main categories as impacts on environment including global warming, acidification and eutrophication (terrestrial and aquatic) were defined. Finally, an index -called environmental index (EcoX) was calculated. Cronbach's alpha was used assessing the reliability of the questionnaire. The results showed that the Cronbach's alpha was computed with α=%84. The average values for global warming, acidification and eutrophication terrestrial and aquatic categories were calculated with115.41±53.41 kg CO2 equiv. / one kg flower yield, 0.35±0.16 kg SO2 equiv./ one kg flower yield, 0.58±0.27 kg NOx equiv./ one kg flower yield and 0.20±0.09 kg PO4 equiv./ one kg flower yield, respectively. The largest share of greenhouse gas emissions in the global warming category was related to CH4. The maximum emission of pollutants in acidification, eutrophication terrestrial and eutrophication aquatic categories was related to NH3. The results revealed that, field area affected the amounts of utilized agricultural inputs and environmental impacts as flower yield. Eutrophication and climate change categories had more sensitivity and affected as intensification based on field area. Therefore, one of the appropriate approaches to mitigate and decline the environmental impacts of agricultural production is achieving higher economical yield per unit of area by increasing resource use efficiency.
Other subject about saffron
morteza esmailnejad
Abstract
Climate change has serious impacts on communities and livelihoods in dry areas. The agricultural sector accepts the greatest impact from climate change due to its extensive interactions with the environment. Environmental degradation and reduced yield of saffron and weakening of the household economy ...
Read More
Climate change has serious impacts on communities and livelihoods in dry areas. The agricultural sector accepts the greatest impact from climate change due to its extensive interactions with the environment. Environmental degradation and reduced yield of saffron and weakening of the household economy are among the consequences of climate change in the Kashmar plain. This study was carried out in order to evaluate the perception of saffron in the Kashmar plain from climate change and its capacity to adapt to this phenomenon. The present study was conducted to examine the perceptions and adaptation of saffron to climate change in order to expand the strategies for confronting the climate change challenges in the Kashmar plain. The method of this study is descriptive-analytic. The population of the study was calculated using Cochran's sampling method and a sample size of 390 households was chosen. Statistical models such as logistic regression were used to examine saffron perception and compatibility strategies. The analysis of saffron perceptions of climate change shows that the increase in temperature and the decrease in rainfall during the last decade in the Kashmar plain has been ongoing. The results of the logistic statistical model indicated that product diversity, change in crops, finding a job outside the farm, changing the amount of land, changing the planting date of saffron were adaptation methods used in the region. Given that many saffron growers have come to understand climate change and adjust their farming activities based on these changes, the government should facilitate the adaptation of saffron to climate change.
