Despite the recognized importance of morphological knowledge to literacy outcomes such as vocabulary knowledge and reading comprehension, two of its subconstructs— morphological awareness and morphological processing—have received comparatively little attention. In response, the aim of the study reported here was to examine how the relationships between morphological awareness and morphological processing, especially in terms of morphological transparency and morphological frequency, contribute to the vocabulary knowledge and reading comprehension of 62 native Korean-speaking secondary school students—27 eighth-graders and 35 tenth-graders— learning English as a foreign language. The students’ performance on the Test of Morphological Structure and the Word Reading Test was assessed to gauge their compounding awareness, inflectional awareness, vocabulary knowledge, and reading comprehension. The results indicated that the students’ performance was varied depending on morphological transparency and frequency. In addition, it was not morphological processing, but rather morphological awareness that explained variances in vocabulary knowledge and reading comprehension, when compounding awareness and inflectional awareness were controlled for. This paper discusses what such findings imply for teaching English as a foreign language to Korean learners.
This paper reports results from two types of priming experiments (i.e., masked and cross-modal priming experiments) which compare Chinese L2 learners’ morphological processing of a Korean verbal suffix -ko with adult native speakers of Korean. L1/L2 differences were found in both the masked and cross-modal priming experiments: Full priming effects were found in the masked priming experiment and partial priming effects in the cross-modal priming experiment in L1, while weak or no priming effects were found in both types of priming experiments of L2. These findings indicate that L2 learners of Korean are less sensitive to morphological structure than native speakers and dependent on the lexical storage of the full form. This study also provided evidence for the non-difference between the masked priming and the cross-modal priming experiments both in L1 and L2.
To manage, sort, and grade fishery resources, it is necessary to measure their morphometric characteristics. This labor-intensive task involves performing repetitive operations on land and on a research vessel. To reduce the amount of labor required, a vision-based automatic measurement system (VAMS) for the measurement of morphometric characteristics of flatfish, such as total length (TL), body width (BW), and body height (BH), has been developed as part of a database management system for fishery resources management. This system can also measure the mass (M) of flatfish. In the present study, we describe a morphological image processing algorithm for the measurement of certain characteristics of flatfish. This algorithm, which involves preprocessing, edge pattern matching, and edge point detection, is effective in cases where the flatfish being measured has a deformed tail and is randomly oriented. The satisfactory performance of the proposed algorithm is also demonstrated by means of experiments involving the measurement of the BW, TL and BH of a flatfish when it is straightened (BW : 117mm, TL : 329mm, BH : 24.5mm), when its tail is deformed, and when it is randomly oriented.