China, with its vast territory, harbors abundant regional food resources with multiple values in nutrition, ecology, and anthropology. However, simply adopting the World Trade Organization’s (WTO) Geographical Indication (GI) system for classifying and managing these agricultural products fails to fully reflect their authentic natural and anthropological attributes, which cannot support the development of local characteristic economies and food cultural ecosystems. Therefore, there is an urgent need to establish a hierarchical classification standard system for regional food resources tailored to China’s national conditions. This paper proposed a new definition for China’s endemic and characteristic food resources and summarizes interdisciplinary research methods for exploring their biological and cultural attributes. Additionally, the economic and sociological values of these resources were discussed. The proposed classification standards provide guidance for the industrialization of regional food resources in China and offer new ideas for transforming biodiversity into novel productive forces in characteristic industries.
Tetraamminecopper(II) sulfate monohydrate, [Cu(NH3)4]SO4·H2O, can be used as a thermochemical energy storage material. When heated, [Cu(NH3)4]SO4·H2O releases ammonia gas and water, leaving behind CuSO4. When CuSO4 is cooled and exposed to ammonia, the reverse reaction occurs, forming [Cu(NH3)4]SO4 and releasing the stored heat. The reaction occurs at medium temperatures, can store a significant amount of thermal energy, and is highly reversible, allowing repeated cycles of heat storage and release without significant material degradation. This type of thermochemical energy storage can be used in various applications, particularly industrial waste heat recovery and solar thermal energy storage. In this study, tetraamminecopper(II) sulfate monohydrate was synthesized by chemical precipitation and thoroughly characterized via various techniques. Phase identification was performed by powder X-ray diffraction (PXRD) and Fourier transformed infrared spectroscopy (FTIR). The morphology of the sample was examined by scanning electron microscopy (SEM), and its chemical composition and elemental distribution were analyzed by energy-dispersive X-ray spectroscopy (EDS). Thermal properties were investigated via differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). UV-Vis diffuse reflectance spectroscopy of the solid sample revealed a broad absorption band characteristic of [Cu(NH3)4]SO4·H2O, consistent with its dark blue color. XRD and FTIR analyses confirmed that the obtained sample is [Cu(NH3)4]SO4·H2O. SEM investigation showed that the prepared material consists of agglomerated particles of varying sizes. The process of thermal decomposition of the examined tetraamine copper(II) sulfate monohydrate takes place in three steps below 350 °C, followed by two additional steps at higher temperatures. Thermochemical energy storage potential of the prepared material is assessed on the basis of operating temperature range (20–200 °C), water elimination during the initial cycle, and volume changes in the course of charging/discharging process, yielding volumetric energy storage density estimation of 382 MJ·m−3.
Stoebe vulgaris is a declared indigenous bush encroacher species in South Africa. It has invaded over 11 million ha of grasslands. It is commonly called bankrupt bush due to its ability to outcompete other indigenous forb and grass species, decreasing grazing capacity, biodiversity, and ecosystem functioning, eventually leading to financial ruin for farmers. Landowners are legally required to control the plant. A herbicide trial was set up in a severely encroached camp at Dundee Research Station in KwaZulu-Natal, South Africa, to test the effectiveness of metsulfuron-methyl (50 g active ingredient ha−1) in controlling S. vulgaris. Applying metsulfuron-methyl provided a significant long-term reduction in S. vulgaris cover over six years. However, effective monitoring and management strategies depend on knowledge of the spatial distribution and expansion patterns of invasive species. We evaluated the ability of UAV-based imagery and machine learning, using Picterra, to detect and map S. vulgaris, while determining the optimal parameters to maximise detection accuracy. The best season for image acquisition was late summer when vegetation was at peak growth and maturity, providing the best spectral distinction between species, under light overcast and mild wind conditions. We recommend careful consideration of the flight orientation to the solar angle. We achieved 92% detector accuracy, with multispectral imagery enhancing the discrimination of similarly coloured plants. Plants smaller than 10 cm were not detected by the model. Our approach, using high-resolution drone imagery and AI, is capable of individual plant detection suited to a farm scale. This opens the way for using advances in drone technology for targeted, spot-application of herbicide.
Paraphenylenediamine (PPD), locally known as “Kala Pathar”, has historically been a major agent of suicidal self poisoning in Southern Punjab, Pakistan. In response to escalating morbidity and mortality, the Government of Punjab implemented a policy prohibiting the commercial scale distribution of raw PPD at the end of 2017. This study aimed to quantitatively evaluate the impact of this policy on the incidence of PPD-related suicidal poisoning in Bahawalpur using an interrupted time series design. A quasi-experimental, retrospective interrupted time series (ITS) analysis was conducted using hospital records from the emergency department of Bahawal Victoria Hospital, Bahawalpur, from January 2016 to March 2024. Annual counts of confirmed PPD poisoning cases were analyzed. The intervention point was defined as January 2018. Segmented regression analysis was performed to estimate changes in both the level and the trend following policy implementation. A total of 4455 PPD poisoning cases were recorded during the study period. Prior to the intervention, cases increased from 832 in 2016 to a peak of 1243 in 2017. Following the prohibition, cases declined sharply to 407 in 2019 and further to 155 in 2023. Segmented regression analysis demonstrated a statistically significant immediate reduction in case level after the intervention (β2 < 0, p < 0.05), along with a significant negative change in post intervention trend (β3 < 0, p < 0.05), indicating a sustained decline in PPD poisoning incidence. The majority of cases occurred among males (72%) and individuals aged 21–40 years (48%). The prohibition of commercial scale PPD distribution was associated with a significant and sustained reduction in PPD-related suicidal poisoning in Bahawalpur. These findings support targeted means restriction policies as an effective suicide prevention strategy in resource limited settings.
Salamanders of the genus Ambystoma in the Trans-Mexican Volcanic Belt are experiencing severe population declines due to habitat loss and fragmentation. This study evaluated critical protection gaps for four Critically Endangered microendemic species: A. amblycephalum, A. andersoni, A. dumerilii and A. mexicanum. We compiled and cleaned 89 validated presence records from databases and the literature. Refined areas of occupancy were calculated using minimum convex polygons adjusted with elevation masks, hydrographic network filters, and species-specific buffer zones (50–100 m). Bioclimatic variables (temperature and precipitation-based) were derived from MexHiResClimDB, and overlap with protected areas, and the Ecosystem Integrity Index (EII) was quantified. The resulting areas of occupancy (0.38–108.19 km2) were larger than previous IUCN estimates for A. amblycephalum and A. dumerilii, yet showed null or minimal overlap with protected areas for these two species (4.79% and 0%, respectively). Ecosystem integrity was low across all species (EII 0.05–0.43), indicating severe degradation. Climatic niches were narrow, differentiated, and associated with restricted altitudinal ranges. These results reveal a crisis of effective protection, where expanded distribution knowledge does not translate into improved conservation status, demanding urgent expansion of active conservation strategies to counteract severe habitat degradation caused by urbanization, intensive agriculture, pollution, and invasive species.
