Skip to main content

SYSTEMATIC REVIEW article

Front. Mar. Sci., 02 April 2024
Sec. Marine Fisheries, Aquaculture and Living Resources
This article is part of the Research Topic Sea Cucumbers: The Sustainability of Emergent and Historical Resources View all 11 articles

Current knowledge of Holothuriida (Holothuroidea: Echinodermata) from Brazil

Jssica Prata*Jéssica Prata*Martin Lindsey ChristoffersenMartin Lindsey Christoffersen
  • Laboratório de Invertebrados Paulo Young, Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba (UFPB), Cidade Universitária, João Pessoa, Paraíba, Brazil

Sea cucumbers are the second most diverse class among echinoderms. They are characterized by an elongated body and dermal ossicles in the body wall. Among the included groups in that class, the order Holothuriida encompasses many species of commercial interest. Faced with the threats of biodiversity loss resulting from the climate crisis and the advancement of cities, this study provides an overview of recent research involving the Holothuriida of the Brazilian Coast. Searches were carried out in the main periodical databases, using appropriate keywords, targeting publications on the subject in the period between 2000 and 2023. In total, 69 publications were found, most of them corresponding to scientific articles in international journals. Most of the studies come from the Northeast region in Brazil (56.52%). Regarding lines of research, those involving taxonomy and molecular analysis were the most prevalent. Over these 20 years, seven species constituted new occurrences. Of note are the studies focused on Holothuria (Halodeima) grisea, which makes up 39.13% of papers. Despite progress, little is known about morphological variations, genetic distance between populations, population densities, and on reproductive biology of species. Brazil has a vast, heterogeneous coastal area, with unique characteristics to which the species are adapted. The findings reinforce the importance to expand studies aiming on knowing the biodiversity, reproductive biology, and population densities of species. Such data are essential for the creation of public policies aimed at the conservation of species of Holothuriida and their habitats.

1 Introduction

Class Holothuroidea is represented by the taxonomic orders Apodida, Elasipodida, Holothuriida, Dendrochirotida, Persiculida, Molpadida, and Synallactida (Miller et al., 2017), that together include 29 families, 246 genera and about 1700 species (WoRMS, 2023). About 50 species of this class are known for the Brazilian coast; of these, 14 belong to the order Holothuriida, including species of Mesothuriidae (Ancona Lopez, 1958, 1962; Brito, 1960, 1962; Tommasi, 1969, 1971, 1972; Mondin, 1973; Tommasi and Aron, 1988; Freire and Grohmann, 1989; Moura et al., 2010, 2016; Martins et al., 2012, 2017; Prata et al., 2014a; Prata et al., 2014b, Prata and Christoffersen, 2017). Holothuriida is one of the most diverse orders of the class Holothuroidea. Its main synapomorphy is the presence of the gonad on only one side of the dorsal mesentery; nowadays it comprises the families Holothuriidae and Mesothuriidae (Miller et al., 2017).

Species of Holothuriida usually display medium to large size, peltate tentacles, and body classified according to arrangement of the ambulacral podia as bivium (dorsal) and trivium (ventral) (Pawson et al., 2010). Its diversity is high in shallow tropical environments (O’Loughlin et al., 2007), living in coral reefs and on soft or hard substrates, usually hidden in crevices, under rocks, on the sediment or gravel, and buried in the sediment (Prata et al., 2014b). Sea cucumbers is an important component of the marine fauna and can comprise up to 95% of the benthic community in some areas (Heezen and Hollister, 1971). Several species ingest and rework large amounts of sediment, being bioturbators of soft-bottom habitats (Miller and Pawson, 1990).

Some species are important fishery resources, considered as healthy food in several Asian countries (Conand, 1989, 2004). With the great demand for this delicacy, the price per kilo became exorbitant (Purcell et al., 2012) and fishing has expanded to other locations where its consumption is not common, such as the Western Atlantic (Conand, 2018). Because of disordered fishing globally, now about 16 species integrate the red list of threatened species of the Union for Conservation of Nature (IUCN) (Purcell et al., 2023). In Brazil, sea cucumber fishing is not regulated. Their capture and/or sale is considered illegal in accordance with federal laws 9,605/1998 and 11,959/2009. These regulate environmental crimes and fishing activities in the country, respectively.

However, fishing of Holothuria (Halodeima) grisea has already been reported for some states, as São Paulo and Ceará (Hadel et al., 1999; Lima et al., 2001; Souza Junior et al., 2017). Fishing appears to be more pronounced in the State of Ceará, where captures are carried out in an artisanal way through the manual picking of sea cucumbers in tide pools (Souza Junior et al., 2017; Ponte and Feitosa, 2019). According to Ponte and Feitosa (2019) the intense fishing pressure on reefs located at Xavier beach (Ceará State) caused a local collapse of the population of sea cucumbers. This led to the development of fishing on submerged reefs, where snorkeling is required. These authors report that sea cucumber fishing in these locations represents an important source of income for fishermen, and it is necessary that government agencies regulate this activity in order to avoid overexploitation of this resource.

Before the 2000s, few studies had been carried out covering the Holothuroidea fauna from Brazil. Examples are Verrill (1868); Rathbun (1879); Ludwig (1881; 1882); Sluiter (1910); Oliveira (1949); Ancona Lopez and Sawaya (1955); Ancona Lopez (1958; 1962); Tommasi (1957; 1969; 1971; 1972; 1974; 1999); Brito (1960; 1962); Deichmann (1963); Lima-Verde (1969); Freitas et al. (1973), Mondin (1973); Tommasi and Aron (1988); and Freire and Grohmann (1989). In general, these studies present species lists and taxonomic inventories from a determined locality, with little information on ecology and biology of the species.

Studies on Holothuroidea from the Brazilian coast is still insufficient to estimate its current diversity and, especially, their population stocks. Considering the ecological importance of the Holothuriida species and that they are more common in tropical waters, as well as that this group is the target of predatory fishing, this work presents a review of the current knowledge of the order from the Brazilian coast, from the 2000s to the present day.

2 Materials and methods

The bibliographic research on Holothuriida from Brazil was conducted between April and October 2023. Studies were selected according to type: scientific articles, books, book chapters, monographs, dissertations, and thesis. The preparation of the research was done locating scientific documents in bibliographic bases. Search was made in Scopus, Web of Science, Scielo, Google Scholar, and Biblioteca Digital Brasileira de Teses e Dissertações (BDTD [Brazilian Digital Library of Theses and Dissertations]), using the keywords: Holothuroidea, Aspidochirotida, Holothuriida, Actinopyga, Holothuria, Mesothuria, and Zygothuria, always in association with the word ‘Brazil’ or ‘Brasil’. Those keywords could be present in the title, in the keywords and/or in the abstract of the documents, in order to increase search results. Regarding time, the searches were limited to studies published between 2000 and 2023, published in any language.

The processes of analysis of quantitative data followed Gil (2002), through the steps: establishment of categories, tabulation, and statistical analysis of data. Categories followed these descriptors: a) type of production; b) temporal distribution; c) geographical distribution; d) institutions originating publications; e) link with postgraduate programs; g) thematic focus. A list of species from Brazil is provided, indicating the recent papers found with species descriptions (from 2000 to 2023). Tabulation, analysis, and graphs of data were done in the software Excel, with each information listed below the respective descriptors, following the established categorization. The complete data can be accessed in the Supplementary Material.

3 Results

In this research 69 academic studies were found, among monographs, dissertations, thesis, book chapters and scientific papers published in periodicals.

3.1 List of the species

The current work reports 14 species of the order Holothuriida from the Brazilian coast, including oceanic islands (Table 1). Most species came from shallow waters, with six from the deep sea (Moura, 2016), of which Holothuria (Cystipus) pseudofossor Deichmann, 1930 was also found in shallow waters (Prata et al., 2014b; Martins et al., 2017).

Table 1
www.frontiersin.org

Table 1 Synthesis of species belonging to Holothuriida with records for the Brazilian coast, including oceanic islands.

Except for Holothuria (Halodeima) grisea Selenka, 1867 and Holothuria (Thymiosycia) arenicola Semper, 1868, the species reported from Brazil have limited distributions along the coast. There are only specific taxonomic studies carried out for them, and few specimens were deposited in scientific collections or observed with Remotely Operated Vehicles (ROVs).

3.2 Types of production

The most frequent academic papers analyzed were scientific articles, representing 75.36% of the total (n = 52), followed by master dissertations (17.39%, n = 12), doctoral thesis (2.90%, n = 2), and book chapters (4.35%, n = 3). Most of the analyzed articles were published in international journals and in English. 28 (40.57%) were studies published in Brazilian journals and 27 (39.13%) in Portuguese. Only one study was published in French.

3.3 Temporal distribution

The focus of this research were the works produced in the present Millenium. The findings show that the quantity of studies increased between 2012 and 2019, reaching a peak in 2013 and 2014 with 7 studies published (Figure 1). From the early 2000s to 2010, the number of studies was low, reaching a maximum of two papers per year. A decrease in production was also observed between 2020 and 2021, increasing again in 2022.

Figure 1
www.frontiersin.org

Figure 1 Number of studies by year and institution. UFCE, Federal University of Ceará; USP, University of São Paulo; UFPB, Federal University of Paraíba; UFRJ, Federal University of Rio de Janeiro; UFBA, Federal University of Bahia; UFPE, Federal University of Pernambuco; UFAL, Federal University of Alagoas; UFVV, Federal University of Vila Velha; UNICAMP, University of Campinas; UFPR, Federal University of Paraná; UFRN, Federal University of Rio Grande do Norte; UFS, Federal University of Sergipe; UEFS, State University of Feira de Santana; UFDPar, Federal University of Delta do Parnaíba; UFF, Federal University Fluminense; UFSC, Federal University of Santa Catarina; UNIVALI, University of Vale do Itajaí; IP/Santos, Advanced Marine Fish Research Center of Santos/São Paulo.

This increase observed between 2012 and 2019 is related to the development of the ‘Programa de Reestruturação e Expansão das Universidades Federais’ (REUNI [Program to Support Restructuring and Expansion Plans of Federal Universities]). The REUNI started in 2007 and resulted in a considerable expansion of public universities and in opportunities for higher education throughout the country, with a view to its internalizing (Bizerril, 2020). The reduction in studies between 2020 and 2021 is related to the public emergency caused by COVID-19, a time when people had to confine themselves to their homes.

3.4 Geographical distribution of publications

The analyzed papers were performed in 11 federal units in Brazil. Three regions were represented, with 56.52% of the total located in Northeast Brazil (n = 39), followed by the Southeast Region (36.23%, n = 25), and then the Southern Region (7.25%, n = 5) (Figure 2). No related studies were observed for the Northern Region.

Figure 2
www.frontiersin.org

Figure 2 Number of papers by type and for region.

Northeast Brazil evidences a promising scientific production, particularly concerning Science Teaching in Biological Sciences. Promising scientific production concentrates most of the work on the Holothuriida. Lack of studies along the Amazon littoral, bathing the Sates of Amapá and Pará, point to a conspicuous a knowledge gap.

3.5 Origin of publications

Most publications came from Public Institutions of Higher Education (97.10%) or government agencies (1.45%), and only one from private institution (1,45%). Some papers share authors belonging to different universities in a same paper. In these cases, however, we considered the origin of the paper as that of the first author. The most productive institutions were Federal University of Ceará, with 26.08% (n = 18) of the scientific productions, followed by University of São Paulo, with 17.39% (n = 12), Federal University of Paraíba, with 13.04% (n = 9), and Federal University of Rio de Janeiro, with 10.14% (n = 7) (Figure 1). Other institutions published between three to one study. Of these publications, 46.37% came from postgraduate programs.

3.6 Thematic focus of publications

Most of studies analyzed correspond to Taxonomic papers (40%), molecular studies (29%), and studies in ecology (17.40%). Other studies considered reproductive biology (6%), fishery (6%), and reviews (1.6%) (Figure 3).

Figure 3
www.frontiersin.org

Figure 3 Thematic focus of publications.

In the taxonomic category, works are more numerous, and can be divided into lists of echinoderm species for a given area; lists of species/taxonomic studies of Holothuroidea for a given locality or region; and new occurrence studies. Four studies focus exclusively on the Order Holothuriida. Most studies focusing on the Class Holothuroidea involve descriptions with detailed images and add data such as re-descriptions of species, ecological notes, and geographical and bathymetric distribution; some also include the morphometry of the dermal ossicles.

Among the 14 species belonging to the order Holothuriida along the Brazilian coast, the most common in the studies were H. (H.) grisea and Holothuria (Thymiosycia) arenicola. The studies cover the Northeast, Southeast and South regions. However, there is a lack of information about the fauna of Holothuriida from the North region, as well as for the States of Maranhão, Piauí, Sergipe (Northeast region), Espírito Santo (Southeast region), Paraná and Rio Grande do Sul (South region). In relation to deep-sea species, only four studies were found. All of them reporting species from Campos Basin, Southwest Atlantic (Campos et al., 2010; Moura et al., 2010).

Ecological studies show the spatio-temporal distribution of holothurian species, most focused on the species Holothuria (Halodeima) grisea; other studies cover behavioral aspects, diet, sediment and habitat analysis, and survival of species exposed to different variables. Two studies mentioned behavioral aspects of H. (H.) grisea. One of them evaluated the selectivity and food preference of juveniles of H. (H.) grisea subjected to different diets and the feeding behavior of the animals, in relation to two different photoperiods. The species had a nocturnal feeding habit and did not demonstrate selectivity or preference for the tested diets. The second study adds that knowing the behavior of holothurians can provide information about the basic learning mechanisms in Echinodermata.

Regarding spatial distribution patterns and populations, only three studies were found. Furthermore, the works deal with only one species, H. (H.) grisea, a species that has been studied by different lines of research. According with those studies, H. (H.) grisea was found more densely in the subtidal stratum, occurring in smaller quantities in autumn. Studies addressed the recycling of organic matter, correlating the survival of H. (H.) grisea with organic matter at different population densities, showing that the higher the density, the lower the chances of juvenile survival in controlled environments.

Another study related the content of organic matter to the presence of H. (H.) grisea in the environment and showed that there was a greater amount of calcium carbonate in samples collected in places where the species is found. There was one work reporting the parasite eulimid Melanella eburnean in H. (H.) grisea. Eulimids are gastropods that parasitize the external body wall of some species of Holothuroidea. Some studies have also analyzed the stomach contents in H. (H.) grisea to indicate if their diet is selective or not. These studies show that, in general, the diet of H. (H.) grisea is not selective. There was even a study on the nutritional value and yield of H. (H.) grisea.

Studies in the molecular category were diverse (n = 20). About 50% refer to studies on immune system cells, molecular markers, and analysis of body wall compounds. Some studies cover the microbiome of the body wall or the digestive tract; others focus on genetic diversity, primer design, and use of microchips, among other aspects. Some works characterized and described the effects of lectin in H. (H.) grisea (HGL). Among these studies, there was also a description of the HGL-2 (Melo et al., 2014). The lectin has been isolated and tested for its anti-inflammatory and hemolytic activities. Other compounds tested was fucosylated chondroitin sulfates type II, which were studied for their anticoagulant action and calcium affinities.

Researches on the ecotoxicological aspects of the species of the order Holothuriida have also been conducted, particularly with H. (H.) grisea. These studies demonstrated its potential environmental bioindicator and capacity to maintain water in tissues during hyperosmotic conditions. They also observed that when exposed to air H. (H.) grisea could reduce the osmotic permeability of their body wall, preventing loss of water into the air or water entry/salt exit during rain.

Molecular studies also addressed characteristics of the microbiota of the digestive tract in comparison to the sediment and diet. An analysis showed different microbiota in larger and smaller individuals. Furthermore, it was observed in Holothuriida that bacteria selectively enriched in their guts were spread on ambient sediments via feces, maintaining the ecological role of the host and promoting the mineralization of organic matter. Studies characterizing microsatellite loci, drawing of primers, and structural studies of genetics were also carried out with H. (H.) grisea, further improving knowledge about the species. Another study with H. (H.) grisea described the morphology and function of cells in the organic matrix of the ossicles, involved in the calcification and developing appropriate protocols for maintaining cells in culture. Studies on the healing process in H. (H.) grisea showed a rapid wound closure action through the synthesis of new collagen fibers. Those fibroblasts and two spherulocyte populations are involved in this process.

Regarding fisheries, the studies reported and characterized such activities for certain beaches on the coast of Ceará (Northeast region), showing the process from fishing to selling. The results indicated an annual catch of 12,341 kg per year in some localities, which are totally commercialized, since sea cucumber is not consumed in Brazil (Souza Junior et al., 2017). According to the authors, Brazilian environmental agencies need to act regarding H. (H.) grisea fishing, since there is no information on population stocks, nor supervision or management in Brazil. Another issue highlighted in these studies was the need to improve the infrastructure of sea cucumber processing sites and to encourage the adoption of hygienic-sanitary practices by fishermen.

The studies that deal with reproductive biology address the gonodal cycle and larval development of Holothuria (Halodeima) grisea. Four studies involved those aspects, detailing the gonodal cycle of this species in two localities of Northeast and Southern Brazil, respectively. According to the findings, the gonads of H. (H.) grisea increase between October and February in the Southern coast, while in the northeast coast, gonad growth occurs from December to February. There are mature individuals along the year and the sexual activity increased in summer. The maturation period and variations in body components do not present notable differences between the sexes.

Fewer studies dealing with review (n = 1) were found. The review presented the historical development of echinoderm studies and current research in Brazil and cited some species of the order Holothuriida. New methods and protocols were addressed in four studies. One of the proposals suggests the use of a proteolytic enzyme to dissolve holothurian tissues, resulting in ossicles with a more preserved surface. This suggestion has not been widely used, because the method of dissolving the tissue with commercial bleach solution is more accessible. Another study proposes the identification of holothurian taxa from disarticulated ossicles.

In the molecular area, a study suggests an integrative approach to study coelomocytes. For this approach, the authors used live and stained cells, scanning electron microscopy and morphometric analyses. They were able to separate seven cell types from the immune system of Holothuria. Considering sea cucumber fishing and the need to understand the populations of H. (H.) grisea in Brazil, a master dissertation proposes the application of microchips to these animals. The microchip was implanted in H. (H.) grisea using eugenol as an anesthetic. The author concluded that would be a way to monitor individuals and an efficient approach for short-term research.

In general, the majority of studies with Holothuriida as their main object deal with the species Holothuria (Holodeima) grisea, from ecological to molecular aspects, totaling around 39.13% of the documents. Studies considering the family Holothuriida, in general, represent approximately 20.28%, in which are addressed the analysis of enzymatic compounds, tissue regeneration mechanisms, characterization of coelomocytes, among others. Those who address the Class Holothuroidea (17.39%) include taxonomic studies, such as species inventories, ecological aspects, and molecular studies. Studies that focus on echinoderms and mention species of Holothuriida represent 23.20% and constitute taxonomic studies or reviews.

4 Discussion

The revision of Brazilian Holothuriida reports 14 species, most from shallow waters (e.g.: Holothuria (Theelothuria) princeps, Holothuria (Holothuria) dakarensis, Holothuria (Platyperona) parvula, Holothuria (Cystipus) pseudofossor). Except for Holothuria (Thymiosycia) arenicola and Holothuria (Halodeima) grisea, the species reported from Brazil have restricted distributions, as a result of taxonomic studies performed, mainly, with material held in collections. These materials may include specimens collected decades ago (e.g. Prata et al. (2014b), includes specimens collected in 1981, but which were analyzed and identified only recently). The populations of several species of marine invertebrates have been decreasing with the exposure to various environmental impacts (Sigwart et al., 2023). If we consider the changes that coastal environments have undergone in recent decades, such as the expansion of cities, waste disposal, loss of habitat, and climate change, it is not possible to say whether these species still occur in those locations sampled decades ago. Therefore, inventorying biodiversity remains an urgent task.

Along the period from 2000 and 2023, the publication of studies on Holothuriida began to increase in 2012, with a small drop in 2020, during the Covid-19 pandemic. From 2022, the number of studies increased again. With the emergence of effective vaccines against the virus, life gradually returned to normal, which consequently made it possible for research to resume. The increase in the number of publications from 2012 matches with the academic training of the first researchers to obtain master and doctorate levels after the REUNI Program. Furthermore, research mostly comes from public institutions. This shows the importance of public universities and academic programs for advancing science in Brazil.

The analyses indicates that most research is published in international journals and in English, in order to ensure a broad audience. In general, the studies are the result of master and doctoral researchers. This indicates that researchers tend to continue their research activities after completing graduate studies. On the other hand, it is noticed that researchers focused on different research lines rarely work together (see Supplementary Material). The studies came from 11 of the 27 federative units of Brazil, being concentrated in the Northeast and Southeast regions. This finding is particularly interesting, given that before the 2000s research was more linked to institutions in the Southeast and South regions of the country. These data also show that little is still known about the echinoderm fauna of the Northern region. This represents a problem, since the reefs at the mouth of the Amazon River, despite having recently been discovered (Moura et al., 2016), already faces enormous dangers of exploitation by oil extraction (Francini-Filho et al., 2018).

The survey showed studies focused on aspects of taxonomy, molecular analysis, ecology, fishery, and reproductive biology. In less quantity on reviews and some studies propose new methodologies or protocols. Rarely two or more themes are combined, about 7.24% (n=5). Studies are usually descriptive; they describe characteristics and do not involve experimental testing or extracting components. Experimental studies, about 36.23%, are related to ecological and molecular research. Molecular studies have focused on testing or isolating compounds from the genus Holothuria, mainly H. (H.) grisea (Moura et al., 2013, 2015) and in analyzing its microbiome (Yamazaki et al., 2019). These subjects have special importance for ecology, aquaculture, and pharmacology.

For most species, information is limited to taxonomic and distribution aspects. Highlighted are a large gap in knowledge about their areas of occurrence, population size, and biology, among others. Being a continental and unequal country, efforts are necessary to expand the geographic and bathymetric distribution of species. Taxonomic and systematic research is still extremely important to know biodiversity (Prata et al., 2014a; Moura et al., 2016; Martins et al., 2017). Brazilian researchers need to be encouraged to expand their research to understand ecological and reproductive biology aspects of Holothuriida (Bueno et al., 2015). Without these data, it is not possible to propose effective measures for the conservation of species and of their habitats.

Regarding fishery, the consumption of sea cucumbers is not part of the Brazilian diet, despite small records of consumption and fishing of H. (H.) grisea in some locations still in the 90s (Hadel et al., 1999). Seizures of the Federal police and recent studies show that fishing for these animals has increased in Brazil. Souza Junior et al. (2017) and Ponte and Feitosa (2019) show unregulated fishing of Holothuria (Halodeima) grisea in coastal areas of the state of Ceará. These areas are far from large urban centers and fishing is not monitored. The fishing occurs on a small scale and in an artisanal way. Ponte and Feitosa (2019) described the fishing cycle in two locations on that coast. They estimated that more than 12,3 tons of H. (H.) grisea per year in 2015-2016, corresponding to 380 thousand individuals. This fishing occurs at spring tides through active search and snorkeling. These authors emphasize that there are other communities along the coast of Ceará that also capture these animals for commercialization. The fishing supplies the international illegal market, with China being the largest buyer (Ponte and Feitosa, 2019; Valenti et al., 2021).

Purcell (2010) finds that the price per kilo varies from species to species, with those better known as Apostichopus japonicus being more expensive compared to other sea cucumbers that are less known and small, such as H. (H.) grisea. Furthermore, poorly processed animals, from places where there is no sanitary control, also have a value below the market. Souza Junior et al. (2017) and Pontes and Feitosa (2019) observed that fishing carried out on the coast of Ceará is carried out improvised by fishermen, which reduces the added value. Freire et al. (2021) built a database on fishing in Brazil and mentions sea cucumbers for the first time. These authors reinforce the need to evaluate the impact of fishing and environmental factors on population stocks.

Holothuria (Halodeima) grisea is distributed across practically the entire Brazilian coast, including ocean islands (Tommasi, 1969; Prata et al., 2014b; Martins et al., 2017). According to the International Union for Conservation of Nature (IUCN) red list and list of Brazilian threatened species, H. (H.) grisea is considered of less concern. However, the near absence of studies on the species and its populations may be masking the impact it has been suffering over the last decades. A decline in population has already been observed in some locations (Souza Junior et al., 2017). Controlling sea cucumber fishing is a challenge, first because these animals are not recognized as fishing resources in Brazil, and there is still no legislation to regulate this fishing (Brasil,1998; 2009); secondly because there is not enough knowledge to estimate population stocks, as well as their reproduction. Furthermore, if fishing is regulated, another demand that arises is the breeding and maintenance of these animals outside of their natural environment.

Population and genetic data are particularly important, as there are increasingly more studies emphasizing the economic and pharmaceutical potential of sea cucumbers, which could be explored through their cultivation under controlled conditions (Valenti et al., 2021). However, growing sea cucumbers is still a challenge and has not been enough to control fishing in most consumer countries. Valenti et al. (2021) points out that there is research underway to cultivate H. (H.) grisea to obtain commercial quantities of heparin in Brazil.

Other studies emphasized the bioturbation role played by sea cucumbers and recommended considering it in coastal environment monitoring programs. However, there is still a lot to know about the relationship between the substrate and sea cucumbers. H. (H.) grisea is sensitive to heavy metals such as lead and tin (Pereira et al., 2014). Studies on osmosis and ionic gradients in the body wall of H. (H.) grisea showed that this species has a greater capacity to maintain water in tissues during hyperosmotic conditions. These studies recommend considering this species in coastal environment monitoring programs.

In relation to studies involving a species as a focus, only papers on Holothuria (Halodeima) grisea were found. Despite that, there is scarce information about its population density, preferences, areas where the largest populations are concentrated, and even about its reproduction and life cycle along the coast. The Brazilian coast is extensive and heterogeneous, presenting diverse environmental characteristics (Ventura et al., 2013), to which species of Holothuriida can adapt. Furthermore, many of these areas can be subject to environmental impacts, whether due to the increase of cities or to climatic crisis. Given the little knowledge about the species, studies combining one or more aspects are of special interest for conservation. Studies with an emphasis on the analysis of compounds for pharmaceutical purposes also need to find a sustainable solution for obtaining these compounds just in case a large-scale quantity is needed. Solutions for fishing species of commercial interest must be found in order to avoid their extinction in the environment (Purcell et al., 2023).

Although it is difficult for Brazilian authorities to control sea cucumber fishing in the country, fishing cannot be regulated without first having an accurate assessment of stocks and knowing the distribution of populations along the coast. Environmental managers need advice to build an action plan for commercial species. The first step is to improve knowledge about the species along the coast with the development of genetic, ecological, reproductive biology and cultivation studies, among others. Brazil has specialized professionals, in different areas, that could cover the gaps of knowledge, able to form a research group on sea cucumbers and articulate management strategies with public authorities in order to prevent overexploitation of this resource and to recover populations. Creating a research group on sea cucumbers with these researchers to propose an action plan that directs the necessary research and coordinating management strategies with public authorities could be a decisive step towards avoiding over-exploitation of this resource and recovering the populations.

This review provides a better understanding on actual knowledge of the Holothuriida for Brazilian waters. Researchers of Holothuriida cover few areas of knowledge, being concentrated in taxonomic and molecular studies. The data collected emphasizes that investigations about Holothuroidea in Brazil were carried out by few researchers, which could explain the gaps of knowledge. Certainly, the interaction between these researchers should be encouraged, to fill the gaps, and to provide measures for the conservation of the Holothuriida and to promote their sustainable development.

Data availability statement

The original contributions presented in the study are included in the article/Supplementary Material. Further inquiries can be directed to the corresponding author.

Author contributions

JP: Data curation, Formal analysis, Writing – original draft. MC: Writing – review & editing.

Funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. JP research is supported by the Public Call n. 03 Produtividade em Pesquisa PROPESQ/PRPG/UFPB PIA13502-2020. MC is supported by a Productivity Scholarship from Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq).

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher’s note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

Supplementary material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fmars.2024.1333253/full#supplementary-material

References

Ancona Lopez A. A. (1958). Sobre holotúrias do litoral sul brasileiro. Boletim Faculdade Filosofia Ciências Letras Universidade São Paulo Zoologia 21, 1–53.

Google Scholar

Ancona Lopez A. A. (1962). Dendrochirotae de são sebastião. Arquivos Museu Nacional 52, 117–124.

Google Scholar

Ancona Lopez A. A., Sawaya P. (1955). Holotúrias de recife. Ciec. e Cultura 7, 166.

Google Scholar

Bizerril M. X. A. (2020). O processo de expansão e interiorização das universidades federais brasileiras e seus desdobramentos. Rev. Tempos e Espaços em Educação 13, 53. doi: 10.20952/revtee.v13i32.13456

CrossRef Full Text | Google Scholar

Brasil. Lei N° 11,959, de 29 de junho de 2009 (2009). Dispõe sobre a Política Nacional de Desenvolvimento Sustentável da Aquicultura e da Pesca, regula as atividades pesqueiras, revoga a Lei no 7.679, de 23 de novembro de 1988, e dispositivos do Decreto-Lei no 221, de 28 de fevereiro de 1967, e dá outras providências (Brasília, DF: Diário Oficial da União).

Google Scholar

Brasil. Lei N° 9,605, de 12 de fevereiro de 1998 (1998). Dispõe sobre as sanções penais e administrativas derivadas de condutas e atividades lesivas ao meio ambiente, e dá outras providências (Brasília, DF: Diário Oficial da União).

Google Scholar

Brito I. M. (1960). Holoturoides do Rio de Janeiro. Parte I. Aspidochirota e Apoda. Papéis Avulsos Zoologia Centro Estudos Zoológicos 7, 1–8.

Google Scholar

Brito I. M. (1962). Ensaio de catálogo dos equinodermas do Brasil. Avulso n. 13. Centro Estudos Zoológicos 11, 1–11.

Google Scholar

Bueno M. L., Tavares Y. A. G., di Domenico M., Borges M. (2015). Gametogenesis and weight change of body organs of the sea cucumber Holothuria (Halodeima) grisea (Aspidochirotida: Holothuriidae) in Southern Brazil. Rev. Biol. Trop. 63, 285–296. doi: 10.15517/rbt.v63i2.23163

PubMed Abstract | CrossRef Full Text | Google Scholar

Campos L. S., Moura R. B., Veríssimo I., Curbelo-Fernandez M. P., Cavalcanti G. H., Brasil A. C. S., et al. (2010). "ROV imaging of deep-sea echinoderms from the Brazilian continental margin, Southwest Atlantic." in Echinoderms. Harris, et al. Eds. Taylor & Francis Group, London, 147–152.

Google Scholar

Conand C. (1989). Les Holothuries Aspidochirotes du lagon de Nouvelle-Calédonie: biologie, écologie et exploitation. ORSTOM, Paris.

Google Scholar

Conand C. (2004). “Present status of world sea cucumber resources and utilisation: an international overview”, in Advances in sea cucumber aquaculture and management, FAO Fisheries Technical Paper No. 463. Eds. Lovatelli A., Conand C., Purcell S., Uthicke U., Hamel J.-F., Mercier A. (FAO, Rome), 13–23.

Google Scholar

Conand C. (2018). Recent informations on worldwide illegal fisheries for sea cucumbers. SPC Bêche-de-mer Information Bulletin 38, 68–71.

Google Scholar

Deichmann E. (1963). Shallow water holothurians known from the Caribbean waters. Stud. Fauna Curaçao Caribbean Islands 63, 100–118.

Google Scholar

Francini-Filho R. B., Asp N. E., Siegle E., Hocevar J., Lowyck K., D’Avila N., et al. (2018). Perspectives on the great Amazon reef: Extension, biodiversity, and threats. Front. Mar. Sci. 5. doi: 10.3389/fmars.2018.00142

CrossRef Full Text | Google Scholar

Freire C. A. O., Grohmann P. A. (1989). Leptosynapta brasiliensis: a new species of Synaptid holothurian (Echinodermata) from a sandy beach in southeastern Brazil. Rev. Bras. Zoologia 6, 719–723. doi: 10.1590/S0101-81751989000400018

CrossRef Full Text | Google Scholar

Freire K. M. F., Almeida Z. S., Amador J. R. E. T., Aragão J. A., Araújo A. R. R., Ávila-da-Silva A. O., et al. (2021). Reconstruction of marine commercial landings for the Brazilian industrial and artisanal fisheries from 1950 to 2015. Front. Mar. Sci. 8. doi: 10.3389/fmars.2021.659110

CrossRef Full Text | Google Scholar

Freitas J. C., Ancona-Lopez A. A., Galvão J. G. (1973). Sobre Semperothuria Surinamensis (Ludwig 1875) (Holothuroiea: Aspidochirotida) da Ilha das Cabias (litoral de São Paulo). Ciec. e Cultura 25, 359.

Google Scholar

Gil A. C. (2002). Como elaborar projetos de pesquisa (São Paulo: Atlas. 2002).

Google Scholar

Hadel F. V., Monteiro A. M. V., Ditadi A. S. F., Tiago C. G., Tommasi L. R. (1999). “Invertebrados Marinhos: Echinodermata”, in Biodiversidade do Estado de São Paulo, Brasil: síntese ao conhecimento ao final do século XX, vol. 3 . Eds. Joly C. A., Bicudo C. E. M. (FAPESP).

Google Scholar

Heezen B. C., Hollister C. D. (1971). The face of the deep (New York, London, and Toronto: Oxford University Press).

Google Scholar

Lima R. P. N., Ventura C. R. R., Campos-Creasey L. S. (2001). “Gonad morphology and gametogenesis of the sea cucumber Isostichopus badionotus from the southeast Brazil,” in Proceedings of the 6th European Conference on Echinoderms, Féral J. -P, David B, Balkema A. A.Eds. 301–306 (Banyuls-sur-Mer, France).

Google Scholar

Lima-Verde J. S. (1969). Primeira contribuição ao inventário dos equinodermas do nordeste brasileiro. Arquivos Ciências do Mar. 9, 9–13.

Google Scholar

Ludwig H. (1881). Über eine lebendiggebarende Synaptide und zwei andere holothurienarten des Brasilianischen kuste. Arch. Italiennes Biologie 2, 41–58.

Google Scholar

Ludwig H. (1882). Verzeichniss der von Prof. Dr. Ed. Van Beneden an der küste von Brasilien gesammelten Echinodermen. Memoires couronnes autres memoires Des. savants étrangers l’Academie Royale Sci. Belgique 44, 1–26.

Google Scholar

Martins L., Souto C., Braga J., Tavares M. (2017). Echinoidea and Holothuroidea (Echinodermata) of the Trindade and Martin Vaz Archipelago, off Brazil, with new records and remarks on taxonomy and species composition. J. Mar. Biol. Assoc. U K. 1–35. doi: 10.1017/S0025315416001569

CrossRef Full Text | Google Scholar

Martins L., Souto C., Menegola C. (2012). First record of Holothuria (Theelothuria) princeps and Thyone pawsoni (Echinodermata: Holothuroidea) in the South Atlantic Ocean. Mar. Biodiversity Records 5, 1–6. doi: 10.1017/S1755267212000796

CrossRef Full Text | Google Scholar

Melo A. A., Carneiro R. F., Silva W. M., Moura R. M., Silva G. C., Sousa O. V., et al. (2014). HGA-2, a novel galactoside-binding lectin from the sea cucumber Holothuria grisea binds to bacterial cells. Int. J. Biol. Macromolecules 64, 435–442. doi: 10.1016/j.ijbiomac.2013.12.035

CrossRef Full Text | Google Scholar

Miller A. K., Kerr A. M., Paulay G., Reich M., Wilson N. G., Carvajal J. I., et al. (2017). Molecular phylogeny of extant holothuroidea (Echinodermata). Mol. Phylogenet. Evol. 111, 110–131. doi: 10.1016/j.ympev.2017.02.014

PubMed Abstract | CrossRef Full Text | Google Scholar

Miller J. E., Pawson D. L. (1990). Swimming sea cucumbers (Echinodermata: Holothuroidea): A survey, with analysis of swimming behavior in four bathyal species. Smithsonian Contributions to the Marine Sciences. 35, 1–18. doi: 10.5479/si.01960768.35.1

CrossRef Full Text | Google Scholar

Mondin M. A. (1973). Estudo sobre os Holothuroidea do Brasil. Holothuroidea de Santa Cruz, Estado do Espírito Santo. Atas da Sociedade Biol. do Rio Janeiro 17, 5–11.

Google Scholar

Moura R. M. (2016). Taxonomia e distribuição de holotúrias (Echinodermata, Holothuroidea) do mar profundo brasileiro. Universidade Federal de Pernambuco, Recife (PE.

Google Scholar

Moura R. L., Amado-Filho G. M., Moraes F. C., Brasileiro P. S., Salomon P. S., Mahiques M. M., et al. (2016). An extensive reef system at the Amazon river mouth. Sci. Adv. 2, 1–12. doi: 10.1126/sciadv.1501252

CrossRef Full Text | Google Scholar

Moura R. M., Aragão K. S., de Melo A. A., Carneiro R. F., Osório C. B. H., Luz P. B., et al. (2013). Holothuria grisea agglutinin (HGA): the first invertebrate lectin with anti-inflammatory effects. Fundam Clin. Pharmacol. 27, 656–668. doi: 10.1111/j.1472-8206.2012.01073.x

PubMed Abstract | CrossRef Full Text | Google Scholar

Moura R. B., Campos L. S., Curbelo-Fernandez P. M., Cavalcanti G. H. (2010). “Synallactidae (Echinodermata: Holothuroidea) from Campos Basin, Southwest Atlantic,” in Echinoderms. Eds. Harris L. G., Böttger S. A., Walker C. H., Lesser M. P. (Taylor & Francis Group, Durham, London), 245–249.

Google Scholar

Moura R. M., Melo A. A., Carneiro R. F., Rodrigues C. R. F., Delatorre P., Nascimento K. S., et al. (2015). Hemagglutinating/Hemolytic activities in extracts of marine invertebrates from the Brazilian coast and isolation of two lectins from the marine sponge Cliona varians and the sea cucumber Holothuria grisea. Anais da Academia Bras. Cienc. 87, 973–984. doi: 10.1590/0001-3765201520140399

CrossRef Full Text | Google Scholar

Oliveira L. P. H. (1949). Relatório sobre as excursões científicas feitas a bordo do navio hidrográfico Rio Branco, sob a orientação do professor Pièrre Drach, da Sorbonne. Memórias do Instituto Oswaldo Cruz 47, 87–96. doi: 10.1590/S0074-02761949000100005

CrossRef Full Text | Google Scholar

O’Loughlin P. M., Paulay G., Vandenspiegel D., Samyn Y. (2007). New Holothuria species from Australia (Echinodermata: Holothuroidea: Holothuriidae), with comments on the origin of deep and cool holothuriids. Memoirs Museum Victoria 64, 35–52. doi: 10.24199/j.mmv.2007.64.5

CrossRef Full Text | Google Scholar

Pawson D. L., Pawson D. J., King R. A. (2010). A taxonomic guide to the Echinodermata of the South Atlantic Bight, USA: 1. Sea cucumbers (Echinodermata: Holothuroidea). Zootaxa 2449, 1–48. doi: 10.11646/zootaxa.2449.1

CrossRef Full Text | Google Scholar

Pereira E. R., Cogo A. J. D., Cruz Z. M. A. (2014). Biomarcadores enzimáticos em Holothuria grisea (Selenka 1867) expostas ao chumbo, cádmio e cobre. Natureza Online 12, 1–9.

Google Scholar

Ponte I. A. R., Feitosa C. V. (2019). Evaluation of an unreported and unregulated sea cucumber fishery in eastern Brazil. Ocean Coast. Manage. 167, 1–8. doi: 10.1016/j.ocecoaman.2018.09.016

CrossRef Full Text | Google Scholar

Prata J., Christoffersen M. L. (2012). Holothuria (Semperothuria) surinamensis Ludwig, 1875 (Echinodermata: Holothuroidea): Record of the species for the northeast coast of Brazil. Check List 8 (4), 768–770.

Google Scholar

Prata J., Christoffersen M. L. (2017). Checklist of the holothuroidea (Echinodermata) from the state of Paraíba, Brazil. Pesquisa e Ensino em Ciências Exatas e da Natureza 1, 45–59. doi: 10.29215/pecen.v1i1.176

CrossRef Full Text | Google Scholar

Prata J., Dias T. L. P., Christoffersen M. L. (2014a). Occurrence of Holothuria (Holothuria) dakarensis (Holothuroidea: Echinodermata) in the south-western Atlantic, with notes on distribution and ecology. Mar. Biodiversity Records 7, 1–6. doi: 10.1017/S1755267214000049

CrossRef Full Text | Google Scholar

Prata J., Manso C. L. C., Christofersen M. L. (2014b). Aspidochirotida (Echinodermata: Holothuroidea) from the northeast coast of Brazil. Zootaxa 3889, 127–150. doi: 10.11646/zootaxa.3889.1.8

PubMed Abstract | CrossRef Full Text | Google Scholar

Purcell S. (2010). Managing Sea Cucumber Fisheries with an Ecosystem Approach. FAO Fisheries and Aquaculture Technical Paper No. 520 (Rome: FAO).

Google Scholar

Purcell S. W., Lovatelli A., González-Wangüemert M., Solís-Marín F. A., Samyn Y., Conand C. (2023). Commercially important sea cucumbers of the world – Second edition. FAO Species Catalogue for Fishery Purposes No. 6, Rev. 1 (Rome: FAO). doi: 10.4060/cc5230en

CrossRef Full Text | Google Scholar

Purcell S. W., Samyn Y., Conand C. (2012). Commercially Important Sea Cucumbers of the World. FAO Species Catalogue for Fishery Purposes. No. 6. (Rome: FAO).

Google Scholar

Rathbun R. A. (1879). List of the Brazilian echinoderms, with notes on their distribution. Connecticut Acad. Arts Sci. 5, 139–151. doi: 10.5962/bhl.title.16126

CrossRef Full Text | Google Scholar

Sigwart J. D., Chen C., Tilic E., Vences M., Riehl T. (2023). Why is there no service to support taxonomy? BioEssays 45, e2300070. doi: 10.1002/bies.202300070

PubMed Abstract | CrossRef Full Text | Google Scholar

Sluiter C. P. (1910). Westindische holothurien. Zoologische Jahrbucher Supplement 11, 331–342.

Google Scholar

Souza Junior J., Ponte I., Coe C. M., Farias W. R. L., Feitosa C. V., Hamel J.-F., et al. (2017). Sea cucumber fisheries in Northeast Brazil (SPC Beche-de-mer Information Bulletin) 37, 43–47.

Google Scholar

Tommasi L. R. (1957). Os equinodermos do litoral de São Paulo. I. Echinoidea, Crinoidea e Holothuroidea do bentos costeiro. Papéis Avulsos Departamento Zoologia Secretaria Agricultura São Paulo 13, 19–44.

Google Scholar

Tommasi L. R. (1969). Lista dos Holothuroidea recentes do Brasil. Contribuições Avulsas do Instituto Oceanográfico série Oceanografia Biológica 15, 1–29.

Google Scholar

Tommasi L. R. (1971). Equinodermes do Brasil. I. Sobre algumas novas espécies e outras pouco conhecidas, para o Brasil. Boletim do Instituto Oceanográfico 20, 1–21. doi: 10.1590/S0373-55241971000100001

CrossRef Full Text | Google Scholar

Tommasi L. R. (1972). Equinodermes da região entre o Amapá (Brasil) e a Flórida (E.U.A.). II. Echinozoa. Boletim Instituto Oceanográfico da Universidade São Paulo 21, 15–67. doi: 10.1590/S0373-55241972000100002

CrossRef Full Text | Google Scholar

Tommasi L. R. (1974). Equinodermes do Brasil. III. Observações sobre algumas espécies coletadas durante as viagens do N/Oc. “Almirante Saldanha”. Boletim do Instituto Oceanográfico 23, 1–15. doi: 10.1590/S0373-55241974000100001

CrossRef Full Text | Google Scholar

Tommasi L. R. (1999). Echinodermatas recentes e fósseis do Brasil (Campinas: Base de Dados Tropical).

Google Scholar

Tommasi L. R., Aron M. A. (1988). Equinodermes da plataforma continental do sudeste do Estado da Bahia. Relatório Interno do Instituto Oceanográfico 19, 1–6.

Google Scholar

Valenti W. C., Barros H. P., Moraes-Valenti P., Bueno G. W., Cavalli R. O. (2021). Aquaculture in Brazil: past, present and future. Aquaculture Reports, Vol. 19. 100611. doi: 10.1016/j.aqrep.2021.100611

CrossRef Full Text | Google Scholar

Ventura C. R. R., Borges M., Campos L. S., Costa-Lotufo L. V., Freire C. A., Hadel V. F., et al. (2013). Echinoderm from Brazil: Historical Research and the Current State of Biodiversity Knowledge. In: Alvarado J., Solis-Marin F. (eds) Echinoderm Research and Diversity in Latin America. Berlin, Heidelberg: Springer. doi: 10.1007/978-3-642-20051-9_9

CrossRef Full Text | Google Scholar

Verrill A. E. (1868). Notice on the corals and echinoderms collected by Prof. C.F. Hartt at the Abrolhos reefs, Province of Bahia, Brasi. Trans. Connecticut Acad. Arts Sci. 1, 351–371.

Google Scholar

World Register of Marine Species. (2023). Holothuriida. Available online at: https://www.marinespecies.org/aphia.php?p=taxdetails&id=1036233.

Google Scholar

Yamazaki Y., Sakai Y., Mino S., Suda W., Hattori M., Meirelles P. M., et al. (2019). Repeated selective enrichment process of sediment microbiota occurred in sea cucumber guts. Environ. Microbiol. Rep. 11, 797–807. doi: 10.1111/1758-2229.12791

PubMed Abstract | CrossRef Full Text | Google Scholar

Keywords: Sea cucumber, Holothuroidea, Holothuriidae, Holothuria, Brazilian coast, Holothuria grisea

Citation: Prata J and Christoffersen ML (2024) Current knowledge of Holothuriida (Holothuroidea: Echinodermata) from Brazil. Front. Mar. Sci. 11:1333253. doi: 10.3389/fmars.2024.1333253

Received: 04 November 2023; Accepted: 08 March 2024;
Published: 02 April 2024.

Edited by:

Arnold Rakaj, University of Rome Tor Vergata, Italy

Reviewed by:

Akbar John, University of Science Malaysia (USM), Malaysia
Laura Ciriminna, University of Palermo, Italy

Copyright © 2024 Prata and Christoffersen. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Jéssica Prata, jessie.prata@gmail.com

Disclaimer: All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.