Reading aloud and reading silently in the context of lexical decision experiments determine the reader’s difficulty in processing a word. One of the psycholinguistic methods that Translation Studies is beginning to use is eye-tracking to gain insights into the fixation durations of words in particular contexts (Göpferich et al., 2008). The gaze duration (i.e., total fixation on a word before moving to another word) is taken to be a measure of difficulty in processing a word. However, other cognitive processes such as situated conceptualizations (Barsalou, 2005, p. 626) are crucial to processing and production tasks alike and are not accessible through eye-tracking monitoring. There are many cognitive processes not verbalized or included in semantic memory which are important for the lexicon. The meaning of a word includes its sensory aspects, its function and the embodied representation of the concept. In other words, word meaning reflects the situated way in which we make sense of the world around us. In order to access situated conceptualization processes through perceptual input as well as other salient features, the methods used are the elicitation of concept properties, imagery, as well as data generated by ERPs and fMRIs.

For example, it is possible to infer the types of sensory information that a word activates by identifying the brain areas that fire when the subject reads a word, perceives an image of what it designates, or even imagines it. These insights are relevant for lexical decision and definition strategies as well as for user perceptions of words in context. For instance, the meaning of a word includes its sensory aspects, its function, and the embodied representation of the concept that it lexicalizes. It goes without saying that such meaning is of a dynamic nature, and that it should reflect the situated way in which we make sense of the world around us. The dynamic multimodal information activated by a concept is illustrated in the following advertisement in Figure 2.

Although the persuasive nature of the advertisement leads the sender to foreground emotion-laden information, the explanation of the artefact is composed of sensory and functional information retrieved through the perceptual input and manipulation of the object. This information is not incidental, since meaning construction heavily relies on perceptually simulating the information that is presented to the comprehender, hence the importance of perception-based information for defining concepts in a situated manner.

In the definition of a specialized concept, the IS_A relation first situates it within a conceptual hierarchy, and then other information such as perceptual features, location and function are added:

bone marrow

soft and spongy [TOUCH_OF] substance [IS_A] in the centre of bones [LOCATION_OF] that produces blood cells, particularly red cells and platelets [FUNCTION].

As previously mentioned, lexicographic and terminographic tools should account for the dynamic way in which we conceptualize the world around us. Accordingly, the increasing emphasis on dynamicity in Terminology has led to the proposal and elaboration of more flexible and dynamic specialized knowledge representation models that are better capable of managing and integrating information from different sources, and adapting terminological information to user needs (Faber, 2011). According to Wu and Barsalou (2009), a combination of word association and situated simulation is responsible for generating properties for concepts. In other words, dynamic representations and contextual uses of a word provide us with the necessary information about that word.

In Terminology, dynamicity is intimately related to multidimensionality (Bowker and Meyer, 1993). Since concepts can be viewed or represented from different perspectives or dimensions, lexicographic practice should thus involve the elaboration of more dynamic representations.

The dynamic representation of concepts in dictionaries involves providing information regarding terminological variation as a cognitive, situated phenomenon (Tercedor, 2011). Variation is related to the different ways of naming the same concept (Daille et al., 1996). For example, the Medline database provides the following terminological variants in Spanish for “malaria” under the heading “Nombres alternativos” [“Other names”]: fiebre cuartana; Paludismo o malaria por Plasmodium falciparum; Fiebre biduoterciana; Paludismo terciano; Plasmodio; Fiebre de las aguas negras o de los pantanos [Quartan malaria; Falciparum malaria; Biduoterian fever; Blackwater fever; Tertian malaria; Plasmodium]. Each of these variants has a motivation and the translator must be able to access information regarding the most appropriate use of each one in a particular context or situation. When lexicographic/terminographic tools offer such information, this makes the work of the translator considerably easier. In order to elicit terminological variants experimentally, crossmodal production tasks can be used in combination with other observational methods, such as extracting corpus-attested forms (Tercedor, 2011). For example, an image of a concept can be used to activate different terminological variants and then triangulate this data with corpus forms.

In Frame-based Terminology (Faber, Márquez and Vega, 2005; Faber et al., 2006; Faber, Leon, Prieto and Reimerink, 2007), conceptual networks are based on an underlying domain event as well as a closed inventory of hierarchical or vertical (i.e., IS_A, PART_OF, and so on) and non-hierarchical or horizontal (HAS_FUNCTION, LOCATION, IS MEASURED WITH) semantic relations. The EcoLexicon environmental knowledge base (http://manila.ugr.es/visual) was elaborated on the premises of dynamicity and multidimensionality. This terminological resource focuses on conceptual relations and the combinatorial potential of concepts, based on information extracted from corpus analysis. This prototypical domain event or action-environment interface (Barsalou, 2003) provides a template applicable to all levels of information structuring.

The visualization and representation of event types affords a more realistic picture of the types of objects that each action type allows as well as the type of event that the frame activates. For example, in Figure 4, through the definition of recharge (process by which new water is added to an aquifer or to the zone of saturation), the user learns that recharge takes an aquifer or the zone of saturation as the affected entities; that it is a type of action that entails a telic process through which the water level is affected (accomplishment); and that the action takes human or artificial agents as the doers of the event.

This type of representation is coherent with how knowledge is dynamically processed in a situated context. According to Barsalou (2005), a given concept produces many different situated conceptualizations, each tailored to different instances in different settings. Thus, context can be said to be a dynamic construct that triggers or restricts knowledge. For instance, the general event codifying an extremely general (and multidimensional) concept such as water can be recontextualized at any moment to centre on any of the more specific subevents. For example, when the water representation is recontextualized to focus on waste water (Figure 5), it takes the following form.

Such information is obtained from the combination of top-down processes of encyclopedic work with bottom-up methodologies using corpus-based collocation extraction. Conceptual relations, both horizontal and vertical, are the selection criteria for concordances in the EcoLexicon database (Faber et al., 2005; Tercedor and López, 2008).

Since the 1980s the use of corpora has become increasingly important in dictionary projects, beginning with Sinclair’s Birmingham Collection of English Text, which resulted in the English learner’s dictionary, Collins COBUILD. Most dictionaries are now compiled on the basis of instances of “authentic” language in use provided by corpora. The intuition of the lexicographer is essential in selecting examples and configuring the information. However, the final output available to dictionary users does not always include such corpus evidence. The entries in certain resources do not even include one sentence illustrating the use of the word in context. This is the case for one of the most widely used dictionaries in the Spanish language, the Diccionario de la Real Academia Española, (DRAE) [Dictionary of the Royal Academy of the Spanish Language]. Despite the fact that the Spanish Royal Academy provides free access to a corpus of contemporary Spanish of more than 200 million words (CREA corpus), there is no direct link from the on-line dictionary to the on-line corpus, and the dictionary does not include any examples of actual word use. Moreover, corpus-based dictionaries, such as the Diccionario Clave, which does display examples, are not widely known amongst translators working with Spanish.

Figure 6 highlights the information provided by the previously mentioned resources about the verb amarrar [to moor], included in a text on oceanographic navigation. The use of examples clearly facilitates comprehension and the translation process by activating concepts and words functioning as prototypical subjects, objects, and adverbials.

Considering the fact that many translation students and translators worldwide usually search words in free on-line resources, which are generally abridged versions of dictionaries (full access must be paid for), they only have very limited (if any) access to information about the collocational meaning[2] of words. In addition, translating under the pressure of tight deadlines is such a common practice among translators that they frequently do not have the time to search free on-line corpora, such the Collins Wordbanks Online English corpus, the Corpus of Contemporary American English or the British National Corpus. In fact, only a few are even aware of innovative research projects using Internet as a corpus in itself.[3] On the brighter side, their pervasive use of Google provides them with both micro-contexts of language use and images that help them understand the core meaning of a word. Such textual, lexical, and visual activation helps them find candidates for translation equivalents. When translating, collocational meaning activated by the use of words in context, combines with the information and connotations evoked by images, together with presuppositions, knowledge, and mental schemata of the translator. All of these have a direct effect on the translation process, where creativity is essential (Kenny, 2001; Stewart, 2000).

Therefore, Internet and freely available on-line resources such as reference corpora, websites offering not only dictionaries, but also feedback from language forums, and social networks have transformed the role of dictionaries in the translation process to the extent that it is now more appropriate to talk about lexicographic materials rather than dictionaries.

Accordingly, lexicographic practice in the making of dictionaries for translators should take into account the search patterns and habits of translators, and the benefits they obtain from conceptual and lexical activation through images and contexts (Tercedor, López and Robinson, 2005; Tercedor et al., 2009; Prieto and López, 2010). In the following example, the inclusion of a definition, an image, and conceptual and terminological information about the concept amarrar facilitates both word comprehension and production.

In conclusion, an interesting approach in translation-oriented lexicographic practice is producing on-line resources that integrate information from dictionaries, corpus data, images, and language forums.

Concordances provide clues about conceptual information as well as lexical co-occurrence patterns of a keyword. In López and Tercedor (2008), and Tercedor and López (2008), we proposed four types of concordances, and described their usefulness in regards to the following:

1. Extracting conceptual information (conceptual concordances) for the acquisition of knowledge about the subject field, its relevant concepts and their relationships.

2. Knowing co-occurrence patterns in specialised discourse (structural concordances).

3. Knowing the selection patterns of verbs and which verbs collocate with certain keywords (verbal structural concordances).

4. Understanding the different senses of a word in regards to semantic prosody, metaphorical extensions, and word sense disambiguation.

Concordances can also show the different meaning or meanings a word may acquire as a result of geographical variation, an aspect that should be considered in lexicographic materials. For example, when sorting the concordances of the noun amarre (derived from amarrar, “to moor”) depending on the country (i.e., Spain vs. Cuba), it is interesting to note that in Spain, the word is mainly associated with navigation, whereas in Cuba, the word is primarily used in the context of witchcraft. In both cases, concordance lines point to the core meaning of the word: “to tie,” but different speech communities have extended this core meaning to different domains. Such geographical differences are reflected in the second sense of the word displayed in the DRAE, but not in other Spanish dictionaries such as Clave.

Finally, concordances also show the different senses and nuances in the meaning of a word. They account for a collocational phenomenon called semantic prosody.

Lexicographers who create resources for the general public use frequency of occurrence as the most relevant criterion for the selection of collocates. Although translators are also interested in frequent collocations, they must also have access to other collocations that are not relevant in frequency but reveal a particular connotation in meaning not readily accessible by introspection. Thus, the relevance of the concept of semantic prosody is self evident for translation. According to Louw (1993, p. 157), a semantic prosody is a “consistent aura of meaning with which a form is imbued by its collocates.” Semantic prosody has aroused considerable attention within corpus linguistics over the last twenty years, and recent studies have compared the semantic prosody of synonyms or near synonyms across languages. Stewart (2009, p. 30) points to two main issues related to semantic prosody: (1) “the role of semantic prosody in the translation process; (2) how corpus data is intuitively converted into evidence of semantic prosody.” He mentions two pitfalls for translators. The first pitfall occurs when translators select only the data that best suit or conform to their perception/preconceptions (Tymoczko, 1998 cited in Stewart, 2009, p. 44). The second occurs when translators are disheartened by corpus evidence of the semantic prosody of a word, which seems to lend weight to the notion of a supposed impossibility of translation.

The inclusion of semantic prosodies in dictionaries can provide valuable information for translators when it comes to identifying collocational uses in which a clash between meanings is either intentional or the result of a problem in rendering the most appropriate combinatorial structure. Moreover, translators, who evidently cannot have a native command of all their working languages, often find it difficult to identify the positive or negative attitudinal meaning associated with certain words. The availability of concordances and the statistical data provided by collocational analysis are powerful resources that make semantic prosody explicit (López, 2001; López and Tercedor, 2008; Tercedor and López, 2008, pp. 173-174).

López (2001) studied the semantic prosodies of general language words, such as effect, cause, response and produce in a specialised corpus of oncology texts. Concordances for “effect(s)” showed that this word has a negative semantic prosody in cancer texts. In particular, the word “effect” co-occurred with lexical units indicating negative entities, properties or events (highlighted in bold in Figure 9):

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In order to verify if these particular uses of the word effect were also prevalent in general language, we analysed the semantic prosody of effect/effects in the Bank of English corpus. To ensure that the language of both corpora (our corpus and the Bank of English) was comparable in terms of dialect (American English) and medium (written text), we searched effect/effects in the section of the Bank of English including 9 million words of American English. The analysis of linguistic contexts was complemented with the generation of the most frequent collocates of the lemma effect according to t-score and mutual information. We concluded that in general language, this lemma has an “open” semantic prosody, allowing for neutral, positive (italics and bold) or negative (underlined) connotations of the word, as opposed to a more restricted semantic prosody in specialized texts (Figure 10).

Therefore, combining frequency as attested by corpora (both ad-hoc and reference corpora) and collocational analysis, with attitudinal or relevance of meaning as revealed by semantic prosody seems to be a good way to complement the purely statistical—and sometimes incomplete—measurements obtained with bottom-up methodologies such as corpus analysis.

In any case, translators should be aware of the fact that texts are not neutral:

From the potential available in the language, [these] texts use particular actual selections, which attach particular connotations to the lemma. Meanings are conveyed not only by individual words and grammatical forms, but also by the frequency of collocations and by the distribution of forms across texts. There are general expectations in the language as a whole as to how words will be used.”

Stubbs, 1996, p. 86

Finally, attitudinal meaning is not always available to the native speaker, as it depends on many factors and changes over time. For example, the analysis of the semantic prosody of the word maquiladora (an assembly plant in the Mexican side of the Mexico-U.S. border run by U.S. or other foreign interests) indicates different lexical selections and semantic prosody of the word maquiladora, depending on the identity of the author of the text: a Mexican worker (“explotación” [exploitation], “bajos salarios” [low salaries], “manifestar” [to protest], “largas jornadas de trabajo” [long work days], “mal pagado” [low paid], “mano de obra barata” [cheap work force], “sector afectado” [affected sector]) or a U.S. business man (“incremento” [increase], “dar trabajo” [hire], “desarrollo” [development], “generar empleo” [create jobs], “crecer” [grow]).