Although the term ‘intellectual tradition’ is frequently used, it is rarely clearly defined, leaving a vast and largely unknown space for multidimensional inquiry. This article explores how to find tacit intellectual traditions by drawing upon cross-cultural philosophical resources and proposing possible methodological directions for educational research. The main argument is that intellectual traditions can be tacit at both epistemological and ontological levels. Three Western theorists—Edward Shils, Michael Polanyi, and Michael Oakeshott—critically reflect on anti-traditionalism and objectivism since the Enlightenment. They contend that intellectual traditions, including the tradition of science, as tacit knowledge, play an important role in human knowing and action. Chinese philosophy also attaches great importance to the tacit dimensions of intellectual tradition particularly at the ontological level, as exemplified by the core concept of ‘Dao’. As a foundational assumption underlying the worldview in ancient China, Dao generated different ways of knowing in Confucianism, Daoism, and Zen Buddhism. Even today, it continues to shape how Chinese people interpret and transmit traditions. The philosophical comparison between East and West reveals the complexities inherent in intellectual traditions, which bring new opportunities for educational research. Incorporating diverse tacit intellectual traditions can help researchers better understand cross-cultural educational issues in teaching, learning, and research. For this purpose, we propose ethnoepistemology, ontography, and hermeneutics as potential methodological tools.
A novel, rapid, and efficient technique for removing phoxim residues from grapes was developed using microbubbles plasma-activated water (mbPAW). The mbPAW system was generated by utilizing a non-thermal plasma jet as the working gas of the Venturi tube. The phoxim residues in the grapes were quantified using high-performance liquid chromatography. Results indicated that the mbPAW treatment significantly enhanced the removal efficiency of the phoxim residues in grapes (92.82 %) compared with plasma-activated water (PAW) treatment (73.60 %) and microbubble generator without the plasma (mbW) treatment (13.56 %). The improved decontamination efficacy of mbPAW was attributed to its stronger oxidation capability and acidic environment, particularly the increased concentration of hydroxyl radicals, which facilitated phoxim removal from the grapes. Notably, LC-Q-TOF analysis revealed identical degradation products of phoxim (diethyl (Z)-(((cyano (phenyl)methylene)amino)oxy)phosphonate and (Z)-N-hydroxybenzimidoyl cyanide) in both the systems, confirming consistent degradation pathways. Crucially, post-treatment quality assessments revealed no statistically significant differences in grape physicochemical properties, including color, firmness, sugar content, vitamin C concentration, and superoxide dismutase activity. This study establishes mbPAW as a green, residue-free strategy for pesticide decontamination in horticultural products, offering high removal efficiency with minimal adverse impacts on produce quality.
The evolution of Fe(II)-oxidizing microorganisms has been closely linked to the evolution of Earth's iron biogeochemical cycle and redox history. However, its impact on the coupled biogeochemical cycling of iron and phosphorus, particularly the distribution of iron-bound phosphate (PFe) in water columns, remains largely unexplored. This study elucidates the distinct Fe(II) oxidation mechanisms of the anoxygenic Rhodobacter ferrooxidans SW2 and the oxygenic Synechococcus sp. PCC 7002, along with the properties, transformation processes, and phosphate interactions of their biogenic iron (oxyhydr)oxides. SW2-mediated Fe(II) oxidation via iron oxidase drove sequential transformation from ferrihydrite to green rust and then to goethite. The resulting cell-mineral aggregates had a large hydrodynamic diameter (Dh, up to 26 μm), a high Fe/C ratio (∼2.5), and a rapid sedimentation rate (up to 57.7 m/day), efficiently transporting PFe to deep-sea sediments. In contrast, PCC 7002 indirectly oxidized Fe(II) via oxygen production, forming poorly crystalline iron (oxyhydr)oxides stabilized by extracellular polymeric substances. The resultant small aggregates (Dh = ∼6.9 μm), with a slower sedimentation rate (∼3.9 m/day), exhibited high phosphorus retention and were susceptible to dissimilatory iron reduction, facilitating PFe recycling in surface waters. These findings suggest that biogenic iron (oxyhydr)oxides from anoxygenic iron oxidizers act as carriers, transporting phosphorus to deep sediments, whereas those from oxygenic cyanobacteria function as phosphorus traps in surface waters. This study provides new insights into how the evolution of Fe(II)-oxidizing microorganisms reshapes PFe cycling and distribution in water columns, emphasizing the need to integrate microbiological and geochemical perspectives in understanding Earth's biogeochemical cycles.
Chinese universities have actively engaged in knowledge production about other countries and played crucial roles in training professionals for the country’s foreign policy community since the founding of the People’s Republic (PRC). For decades, the transformations of the PRC’s international and area studies programs have not only reflected the shifting demands of top decision-makers but also influenced the interactions among scholars, academic institutions, government agencies, business elites, and the general public. This article analyzes the ups and downs of China’s international and area studies programs in the second half of the 20th century and how they were closely intertwined with the country’s shifting priorities in foreign policy, overseas Chinese affairs, and higher education. Primarily focusing on the case of Southeast Asian Studies (SEAS), this paper explores how the PRC’s area studies programs interacted with the country’s foreign policy during the 1955–1965 and post-1978 periods. Despite the changing geopolitical dynamics after 2000, the academic infrastructure and particular institutional culture formed in these two phases remain essential to our understanding of China’s area studies initiatives today.
This paper revisits the commercial peace hypothesis using global event data from 1989 to 2019. We show that greater imports consistently worsen bilateral relations, with the effect strengthening after the 2008 financial crisis. The negative impact is most pronounced in democracies, high-income countries and those with elevated unemployment, where globalisation's distributive conflicts more easily shape foreign policy. Instrumental variable estimates confirm causality, and analyses using militarised interstate disputes reveal that trade-driven tensions extend beyond diplomacy to overt conflict. These findings challenge the optimistic view that economic interdependence fosters peace.
We studied the horizontally oriented ice crystals (HOIC) with the combinational observations of a zenith-pointing and a slant-pointing (with a zenith angle of 15 degrees) polarization lidar in Beijing in 2022. The HOICs account for approximately 7.3 % of total ice-containing clouds. These results have the potential to enhance the parameterization scheme in climate models for this unique form of ice crystals.
The effects and mechanisms of carbon (C)- and nitrogen (N)-deficient nutrient conditions (prevalent in natural environment) on bacterial mobile performance in porous media are unclear. This study systematically investigated the transport/retention performance of Gram-negative Escherichia coli and Gram-positive Bacillus subtilis experiencing different nutrient conditions (i.e. nutrient-sufficient, C-deficient, or N-deficient conditions) in column, parallel plate flow chamber (PPFC) and microfluidic chamber systems. We found that compared to those in nutrient-sufficient condition, bacteria (regardless of their type) exposure to C-deficient nutrient condition exhibited 7–14% reduced mobility in porous media, whereas those experienced N-deficient condition had 7–20% enhanced transport in both simulated electrolyte solutions and real groundwater samples. The underlying mechanisms driving to different mobile performance of bacteria exposure to different nutrient conditions were correlated with the composition of proteins (one major component of extracellular polymeric substances (EPS)). Compared to nutrient-sufficient condition, C-deficient condition increased EPS hydrophobicity via enhancing hydrophobic amino acids contents and altering secondary structure within proteins thus decreased bacterial transport, while N-deficient condition decreased EPS hydrophobicity through decreasing the abundance of hydrophobic amino acids within proteins and increased cell mobility. The results showed that via changing cell surface hydrophobicity, exposure bacteria to different nutrient conditions could induce different mobile performance of bacteria.
Test-time adaptation (TTA) aims to adapt the model trained on source domain to unseen target domain using a few unlabeled images during inference, which holds great value for the deployment of models in the clinical practice. In this setting, the model can only access online unlabeled test samples and pre-trained model on the source domain. Because unlabeled test samples may arrive sequentially, the model needs to adjust online for the cross-domain distribution shift from different medical institutions, the scale of which would change concurrently and continually over time. However, unstable optimization and abnormal distribution will lead to error accumulation and catastrophic forgetting. Considering the role of brain extracellular space in balancing neural homeostasis and signal transmission, we recognize that the existing TTA methods lack a dedicated component to ensure the stability and accuracy of the model. In this paper, we propose a robust TTA approach for cross-domain segmentation as MemTTA. Specifically, firstly, we introduce transductive batch normalization to ensure stability, which calculates the mean and the variance from the source domain and current test batch. Secondly, we propose a memorized spatial pixel-level clustering strategy to represent each category with multiple and anisotropic prototypes for feature alignment, which can be associated with the parametric classifier. During test time, we adapt the segmentation model to each test batch with self-supervision augmentation consistency learning to improve the inference performance. MemTTA needs only one epoch training on each test batch, and then is comparable to standard models as the traditional inference pipeline. The proposed method is extensively evaluated on neuron, brain metastases, cardiac, and abdominal organ image segmentation. The experimental results demonstrate that our proposed MemTTA can effectively mitigate test-time domain shift and catastrophic forgetting, and is superior to existing state-of-the-art approaches.
Shortly after the failed PKI uprisings of 1926/27, Tan Malaka and his associates established the Partai Republik Indonesia (PARI). Although he acted as the party chairman and chief strategist, his involvement in the party operation was minimal as he lived in exile. Nevertheless, he loomed large in the eyes of both his followers and enemies. Not only was Tan Malaka a legendary guru for Indonesian revolutionaries, but also an enormous threat to colonial authorities across East and Southeast Asia. This chapter explores Tan Malaka's exile in China between 1927 and 1936 and how such experiences reflect his shifting relationship with Indonesia's ongoing struggles for independence, the international communist movement, and the surveillance and policing practices of multiple colonial states.
