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Arthropod Phylogeny

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Muzna Kashaf
Muzna Kashaf

Classification of Arthropod taxa with symbiotic members. Arthropod phylogeny is also included

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1 ASSIGNMENT No. 1 ARTHROPOD PHYLOGENY AND CLASSIFICATION OF ARTHROPOD TAXA WITH SYMBIOTIC MEMBERS SUBMITTED BY : MUZNA KASHAF ROLL NUMBER : (16261514-030) SUBMITTED TO : Dr. NOUSHEEN ZAFEER COUSE TITLE : PRINCIPLES of PARASITOLOGY SEMESTER : VIII DEPARTMENT of ZOOLOGY UNIVERSITY of GUJRAT, SUB-CAMPUS, RAWALPINDI
2 CONTENTS Pg. number Arthropod Phylogeny…………………………………………………………………… 3  Introduction…………………………………………………………………….... 3  Literature Review………………………………………………………………... 3 Classification Of Arthropodan Taxa With Symbiotic Members ……………………. 4  Phylum Arthropoda……………………………………………………………... 4  Comparative Study…………………………………………………………….... 5  Subphylum Trilobitomorpha (Trilobites)……………………………………… 5  Subphylum Chelicerata…………………………………………………………. 5  Class Merostomata………………………………………………………………. 5  Class Arachnida…………………………………………………………………. 6  Class Pycnogonida………………………………………………………………. 6  Sub Phylum Crustacea………………………………………………………….. 6  Subphylum Myriapoda………………………………………………………….. 6  Class Chilopoda………………………………………………………………….. 7  Class Symphyla…………………………………………………………………… 7  Class Diplopoda…………………………………………………………………... 7  Class Pauropoda………………………………………………………………….. 7  Sub Phylum Hexapoda…………………………………………………………... 7  Class Insecta………………………………………………………………………. 8  Class Entognatha…………………………………………………………………. 8  Conclusion………………………………………………………………………… 8  References ………………………………………………………………………… 9
3 ARTHROPOD PHYLOGENY INTRODUCTION: As might be expected from arthropods’ long evolutionary history and extreme diversity, establishment of evolutionary relationships, especially among the more inclusive taxa, is a challenge that has occupied many scientists ever since Darwin’s time. Exceptionally detailed comparative anatomical research, especially that focused on homology between body segments and formation of the head through segment fusion, was the standard approach through much of this period. Embryological development also has been an important part of phylogenetic research on arthropods ever since Darwin claimed, based on nauplius structure, that barnacles were crustaceans rather than mollusks (Fahrbach, 2004). Within Arthropoda, relationships are now proposed based on a combination of embryological, morphological, and molecular evidence to establish homologies between body parts, especially head segments. Although some authors use molecular data to argue that the mandibulate Myriapoda (centipedes and millipedes) are a sister group to the non-mandibulate Chelicerata (horseshoe crabs, ticks, mites, etc.), combining them into a taxon called Paradoxopoda or Myriochelata, we accept the evidence as outlined by Scholtz and Edgecombe that Mandibulata, which includes Hexapoda (insects), Crustacea, and Myriapoda, is monophyletic (Zhang, 2011). Crustacea and Hexapoda, somtimes grouped in a clade named Pancrustacea, are now considered sister taxa within Mandibulata. Embryological evidence, especially that involving brain development and eye structure, suggests Hexapoda actually are most closely related to Malacostraca within Crustacea, but 28S + 18S ribosomal RNA sequence data do not necessarily support this relationship. The position of myriapods remains unresolved, partly because they have not been studied to the same extent as insects and crustaceans. Finally, Hexapoda does not include some six-legged arthropods, namely, members of classes Collembola (the exceedingly abundant springtails), Protura, and Diplura; members of all these classes occur mainly in or on damp soil or litter (Scholtz and Edgecombe, 2006). LITERATURE REVIEW: In recent years, such work has been complemented by molecular techniques, especially those allowing scientists to study the role of homeobox (Hox) genes. Consequently, our ideas about who is most closely related to whom have undergone, and may continue to undergo, rather substantial adjustment. Traditionally, arthropods have been included in a single phylum of metameric, coelomate animals. Arthropods share many features with annelids, such as metamerism and a nervous system consisting of supraesophageal ganglia, nerves encircling the esophagus, and a ventral series of segmental ganglia. Such similarities led to claims that the two phyla are related and that arthropods likely evolved from annelidlike ancestors, but this idea is not supported by current research. Lophotrochozoa. Based on 18S ribosomal RNA sequence data, phylum Arthropoda is considered a member of superphylum Ecdysozoa, i.e., animals that
4 molt, along with Nematoda and other smaller phyla such as Nematomorpha Onychophora (wormlike tropical and subtropical organisms), and Tardigrada (water bears). Recent phylogenies using “nearly complete 28S + 18S ribosomal RNA gene sequences” show Arthropoda, Onychophora, and Tardigrada as a monophyletic clade with the other ecdysozoans comprising the sister group. CLASSIFICATION OF ARTHROPODAN TAXA WITH SYMBIOTIC MEMBERS This classification of Crustacea relies heavily on Kabata, Marcotte, Bowman and Abele, and Martin and Davis. Classification of Arachnida is according to Savory, and diagnoses of the orders of pterygotes mainly follow Borrer et al., Gillott, and Richards and Davies. Subphylum Uniramia as traditionally constituted may not be a valid or monophyletic taxon (Borrer et al., 2009). PHYLUM ARTHROPODA Bilaterally symmetrical invertebrates with jointed exoskeleton covering body and appendages; cilia absent; body segmented, though segmentation commonly reduced as a result of fusion; appendages typically specialized for different functions; coelom greatly reduced; nervous system consists of dorsal brain and a double or single (fused) ventral nerve cord; eggs typically rich in yolk; development highly modified (Martin, 2001). Fig.1; Classification of Arthropod taxa
5 COMPARATIVE STUDY: SUBPHYLUM TRILOBITOMORPHA (TRILOBITES) Extinct; head (or cephalon) composed of 5 segments bearing a pair of antennae and compound eyes; oval, flattened body composed of cephalon, thorax, and pygidium, each segmented; dorsal surface molded longitudinally into 3 lobes; each segment bears a pair of similar, branched appendages; marine; Cambrian Period to the end of the Paleozoic Era; more than 4,000 fossil species known (Borrer et al., 2009). Fig.2; Trilobitomorpha SUBPHYLUM CHELICERATA Body divided into prosoma (cephalothorax) and opisthosoma (abdomen); no antennae; first pair of appendages consists of chelicerae flanking the mouth; in most chelicerates the other prosomal appendages are a pair of pedipalps and four pairs of legs (Zhang, 2011). Fig.3; Spider CLASS MEROSTOMATA Large marine chelicerates with book gills on the underside of the opisthosoma; prosoma covered by a dorsal carapace; opisthosoma bears a long terminal spine; 2 orders, Xiphosura (horseshoe crabs, 4 species) and Eurypterida (Gigantostraca), which is extinct and includes 200 fossil species from the Paleozoic Era (Martin, 2001).
6 CLASS ARACHNIDA (SCORPIONS, SPIDERS, TICKS, MITES) Chiefly terrestrial; book lungs and/or tracheae as gas exchange organs; opisthosoma (abdomen) segmented or unsegmented externally and broadly or narrowly joined to the prosoma; prosomal appendages consist of 1 pair of chelicerae, 1 pair of pedipalps, and 4 pairs of legs; gonopore always on the lower side of second abdominal segment; about 70,750 species; 0.25 mm–l8 cm (Borrer et al., 2009). CLASS PYCNOGONIDA (SEA SPIDERS) Marine; narrow trunk of 4 to 6 segments; greatly reduced abdomen; cephalon (head) with proboscis bearing a pair of chelicerae, palpi, and egg-carrying legs; usually 4 pairs of walking legs attached to lateral projections of the trunk; tubercle with 4 eyes located dorsally between the first pair of legs; no gas respiratory organs; commonly found crawling over sessile animals, such as hydroids and bryozoans; about 1,000 described species; 1 mm–10 cm (Zhang, 2011). SUBPHYLUM CRUSTACEA It includes crabs, shrimp, isopods, amphipods, krill, brine shrimp, copepods, barnacles. Chiefly aquatic; head bearing 2 pairs of antennae, a pair of mandibles, and 2 pairs of maxillae; trunk highly variable but commonly covered in part or entirely by a posteriorly directed fold of the head (carapace); paired appendages biramous, often with 1 branch lost; 2 stalked or stalkless compound eyes present in most; when present, gas exchange organs are gills; mostly marine, but many freshwater species; some isopods terrestrial; 44,000 described species distributed among 6 subclasses (Marcotte, 1982). Fig. 4; Carapace of crab SUBPHYLUM MYRIAPODA Chiefly terrestrial; segmental appendages primitively unbranched; head appendages comprise a pair of antennae, a pair of mandibles, and 1 or 2 pairs of maxillae; trunk and appendages variable; respiratory organs are tracheae (Zhang, 2011).
7 Fig.5; Millipede and Centipede CLASS CHILOPODA (CENTIPEDES) Elongate; many trunk segments, each with 1 pair of legs; 2 pairs of maxillae covered by a large pair of poison claws representing the first pair of trunk appendages; eyes, if present, are simple ocelli; gonopore on last segment; 5 mm to almost 30 cm; about 3,000 living species (Zhang, 2011). CLASS SYMPHYLA Mouthparts consist of a pair of mandibles and 2 pairs of maxillae; 12 leg-bearing trunk segments; terminal segment carries a pair of spinnerets; gonopore on fourth segment; l–8 mm; about 160 living species (Martin, 2001). CLASS DIPLOPODA (MILLIPEDES) Elongate; trunk containing many diplosegments, each bearing 2 pairs of legs and spiracles; single pair of maxillae fused to form a flattened plate (gnathochilarium); first 4 trunk segments not diplosegments, and third bears the gonopores; simple eyes (ocelli) present or absent; 2 mm–28 cm; about 10,000 living species (James, 2015). CLASS PAUROPODA Antennae branched; a pair of maxillae; 9–11 trunk segments bearing legs; gonopores on third trunk segment as in diplopods; 0.5–1.5 mm; about 500 described species (Zhang, 2011). SUBPHYLUM HEXAPODA: Subphylum Hexapoda includes the most important class Insecta.
8 Fig.6; Dragonfly CLASS INSECTA Body composed of a head, thorax, and abdomen; head bears simple eyes and usually a pair of lateral compound eyes; 2 pairs of maxillae, the second pair fused (labium); thorax of 3 segments, each with a pair of legs, and the second and third usually bearing wings; abdomen of 11 segments without appendages in the adult; gonopore at end of abdomen; 0.25 mm–33 cm; at least 1 million described species (Martin, 2001). CLASS ENTOGNATHA It includes all the wingless insects of the subphulum hexapoda. CONCLUSION: Arthropod relationships, both within the phylum and with other animal phyla, are uncertain. For many years arthropods and annelids were believed to be closely related, with arthropods likely evolving from annelid ancestors, or vice versa. Modern analyses question that assumption, suggesting that their similarly segmented body plans would have to have evolved independently (James, 2015). Likewise, many relationships within the group are equally unsettled. For example, the terrestrial arthropods insects and myriapods are commonly believed to be closely related. It is possible that both groups derived from a common ancestor. On the other hand, accumulating molecular evidence allies insects more closely with crabs and other crustaceans and links the myriapods with horseshoe crabs and arachnids (Zhang, 2011). Furthermore, some groups of animals have been incorporated into the Arthropoda. A group of parasitic worms known as the pentastomids, for example, are considered to be highly modified crustaceans at present. In contrast, two other groups of animals, the microscopic water bears (tardigrades) and the onychophorans (such as Peripatus) are closely related to arthropods but will probably remain in one or more separate phyla (James, 2015).
9 REFERENCES:  Zhang Z-Q (ed) (2011) Animal biodiversity: an outline of higher-level classification and survey of taxonomic richness. Magnolia Press, Auckland  James H. Diaz, in Mandell, Douglas, and Bennett's Principles and Practice of Infectious Diseases (Eighth Edition), 2015  Fahrbach, S. E. 2004. What arthropod brains say about arthropod phylogeny. Proc. Nat. Acad. Sci. 101:3723–3724.  Marcotte, B. M. 1982. Evolution within the Crustacea, part 2:Copepoda. In L. G. Abele (Ed.), The biology of Crustacea,vol. 1. Systematics, the fossil record, and biogeography. New York: Academic Press, Inc., pp. 185–197.  Martin, J. W., and G. E. Davis. 2001. An updated classification of the recent Crustacea. Nat. Hist. Mus. Los Angeles Co. Sci. Series. Dec. 14, 2001:i–viii, 1–124.

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Arthropod Phylogeny

  • 1. 1 ASSIGNMENT No. 1 ARTHROPOD PHYLOGENY AND CLASSIFICATION OF ARTHROPOD TAXA WITH SYMBIOTIC MEMBERS SUBMITTED BY : MUZNA KASHAF ROLL NUMBER : (16261514-030) SUBMITTED TO : Dr. NOUSHEEN ZAFEER COUSE TITLE : PRINCIPLES of PARASITOLOGY SEMESTER : VIII DEPARTMENT of ZOOLOGY UNIVERSITY of GUJRAT, SUB-CAMPUS, RAWALPINDI
  • 2. 2 CONTENTS Pg. number Arthropod Phylogeny…………………………………………………………………… 3  Introduction…………………………………………………………………….... 3  Literature Review………………………………………………………………... 3 Classification Of Arthropodan Taxa With Symbiotic Members ……………………. 4  Phylum Arthropoda……………………………………………………………... 4  Comparative Study…………………………………………………………….... 5  Subphylum Trilobitomorpha (Trilobites)……………………………………… 5  Subphylum Chelicerata…………………………………………………………. 5  Class Merostomata………………………………………………………………. 5  Class Arachnida…………………………………………………………………. 6  Class Pycnogonida………………………………………………………………. 6  Sub Phylum Crustacea………………………………………………………….. 6  Subphylum Myriapoda………………………………………………………….. 6  Class Chilopoda………………………………………………………………….. 7  Class Symphyla…………………………………………………………………… 7  Class Diplopoda…………………………………………………………………... 7  Class Pauropoda………………………………………………………………….. 7  Sub Phylum Hexapoda…………………………………………………………... 7  Class Insecta………………………………………………………………………. 8  Class Entognatha…………………………………………………………………. 8  Conclusion………………………………………………………………………… 8  References ………………………………………………………………………… 9
  • 3. 3 ARTHROPOD PHYLOGENY INTRODUCTION: As might be expected from arthropods’ long evolutionary history and extreme diversity, establishment of evolutionary relationships, especially among the more inclusive taxa, is a challenge that has occupied many scientists ever since Darwin’s time. Exceptionally detailed comparative anatomical research, especially that focused on homology between body segments and formation of the head through segment fusion, was the standard approach through much of this period. Embryological development also has been an important part of phylogenetic research on arthropods ever since Darwin claimed, based on nauplius structure, that barnacles were crustaceans rather than mollusks (Fahrbach, 2004). Within Arthropoda, relationships are now proposed based on a combination of embryological, morphological, and molecular evidence to establish homologies between body parts, especially head segments. Although some authors use molecular data to argue that the mandibulate Myriapoda (centipedes and millipedes) are a sister group to the non-mandibulate Chelicerata (horseshoe crabs, ticks, mites, etc.), combining them into a taxon called Paradoxopoda or Myriochelata, we accept the evidence as outlined by Scholtz and Edgecombe that Mandibulata, which includes Hexapoda (insects), Crustacea, and Myriapoda, is monophyletic (Zhang, 2011). Crustacea and Hexapoda, somtimes grouped in a clade named Pancrustacea, are now considered sister taxa within Mandibulata. Embryological evidence, especially that involving brain development and eye structure, suggests Hexapoda actually are most closely related to Malacostraca within Crustacea, but 28S + 18S ribosomal RNA sequence data do not necessarily support this relationship. The position of myriapods remains unresolved, partly because they have not been studied to the same extent as insects and crustaceans. Finally, Hexapoda does not include some six-legged arthropods, namely, members of classes Collembola (the exceedingly abundant springtails), Protura, and Diplura; members of all these classes occur mainly in or on damp soil or litter (Scholtz and Edgecombe, 2006). LITERATURE REVIEW: In recent years, such work has been complemented by molecular techniques, especially those allowing scientists to study the role of homeobox (Hox) genes. Consequently, our ideas about who is most closely related to whom have undergone, and may continue to undergo, rather substantial adjustment. Traditionally, arthropods have been included in a single phylum of metameric, coelomate animals. Arthropods share many features with annelids, such as metamerism and a nervous system consisting of supraesophageal ganglia, nerves encircling the esophagus, and a ventral series of segmental ganglia. Such similarities led to claims that the two phyla are related and that arthropods likely evolved from annelidlike ancestors, but this idea is not supported by current research. Lophotrochozoa. Based on 18S ribosomal RNA sequence data, phylum Arthropoda is considered a member of superphylum Ecdysozoa, i.e., animals that
  • 4. 4 molt, along with Nematoda and other smaller phyla such as Nematomorpha Onychophora (wormlike tropical and subtropical organisms), and Tardigrada (water bears). Recent phylogenies using “nearly complete 28S + 18S ribosomal RNA gene sequences” show Arthropoda, Onychophora, and Tardigrada as a monophyletic clade with the other ecdysozoans comprising the sister group. CLASSIFICATION OF ARTHROPODAN TAXA WITH SYMBIOTIC MEMBERS This classification of Crustacea relies heavily on Kabata, Marcotte, Bowman and Abele, and Martin and Davis. Classification of Arachnida is according to Savory, and diagnoses of the orders of pterygotes mainly follow Borrer et al., Gillott, and Richards and Davies. Subphylum Uniramia as traditionally constituted may not be a valid or monophyletic taxon (Borrer et al., 2009). PHYLUM ARTHROPODA Bilaterally symmetrical invertebrates with jointed exoskeleton covering body and appendages; cilia absent; body segmented, though segmentation commonly reduced as a result of fusion; appendages typically specialized for different functions; coelom greatly reduced; nervous system consists of dorsal brain and a double or single (fused) ventral nerve cord; eggs typically rich in yolk; development highly modified (Martin, 2001). Fig.1; Classification of Arthropod taxa
  • 5. 5 COMPARATIVE STUDY: SUBPHYLUM TRILOBITOMORPHA (TRILOBITES) Extinct; head (or cephalon) composed of 5 segments bearing a pair of antennae and compound eyes; oval, flattened body composed of cephalon, thorax, and pygidium, each segmented; dorsal surface molded longitudinally into 3 lobes; each segment bears a pair of similar, branched appendages; marine; Cambrian Period to the end of the Paleozoic Era; more than 4,000 fossil species known (Borrer et al., 2009). Fig.2; Trilobitomorpha SUBPHYLUM CHELICERATA Body divided into prosoma (cephalothorax) and opisthosoma (abdomen); no antennae; first pair of appendages consists of chelicerae flanking the mouth; in most chelicerates the other prosomal appendages are a pair of pedipalps and four pairs of legs (Zhang, 2011). Fig.3; Spider CLASS MEROSTOMATA Large marine chelicerates with book gills on the underside of the opisthosoma; prosoma covered by a dorsal carapace; opisthosoma bears a long terminal spine; 2 orders, Xiphosura (horseshoe crabs, 4 species) and Eurypterida (Gigantostraca), which is extinct and includes 200 fossil species from the Paleozoic Era (Martin, 2001).
  • 6. 6 CLASS ARACHNIDA (SCORPIONS, SPIDERS, TICKS, MITES) Chiefly terrestrial; book lungs and/or tracheae as gas exchange organs; opisthosoma (abdomen) segmented or unsegmented externally and broadly or narrowly joined to the prosoma; prosomal appendages consist of 1 pair of chelicerae, 1 pair of pedipalps, and 4 pairs of legs; gonopore always on the lower side of second abdominal segment; about 70,750 species; 0.25 mm–l8 cm (Borrer et al., 2009). CLASS PYCNOGONIDA (SEA SPIDERS) Marine; narrow trunk of 4 to 6 segments; greatly reduced abdomen; cephalon (head) with proboscis bearing a pair of chelicerae, palpi, and egg-carrying legs; usually 4 pairs of walking legs attached to lateral projections of the trunk; tubercle with 4 eyes located dorsally between the first pair of legs; no gas respiratory organs; commonly found crawling over sessile animals, such as hydroids and bryozoans; about 1,000 described species; 1 mm–10 cm (Zhang, 2011). SUBPHYLUM CRUSTACEA It includes crabs, shrimp, isopods, amphipods, krill, brine shrimp, copepods, barnacles. Chiefly aquatic; head bearing 2 pairs of antennae, a pair of mandibles, and 2 pairs of maxillae; trunk highly variable but commonly covered in part or entirely by a posteriorly directed fold of the head (carapace); paired appendages biramous, often with 1 branch lost; 2 stalked or stalkless compound eyes present in most; when present, gas exchange organs are gills; mostly marine, but many freshwater species; some isopods terrestrial; 44,000 described species distributed among 6 subclasses (Marcotte, 1982). Fig. 4; Carapace of crab SUBPHYLUM MYRIAPODA Chiefly terrestrial; segmental appendages primitively unbranched; head appendages comprise a pair of antennae, a pair of mandibles, and 1 or 2 pairs of maxillae; trunk and appendages variable; respiratory organs are tracheae (Zhang, 2011).
  • 7. 7 Fig.5; Millipede and Centipede CLASS CHILOPODA (CENTIPEDES) Elongate; many trunk segments, each with 1 pair of legs; 2 pairs of maxillae covered by a large pair of poison claws representing the first pair of trunk appendages; eyes, if present, are simple ocelli; gonopore on last segment; 5 mm to almost 30 cm; about 3,000 living species (Zhang, 2011). CLASS SYMPHYLA Mouthparts consist of a pair of mandibles and 2 pairs of maxillae; 12 leg-bearing trunk segments; terminal segment carries a pair of spinnerets; gonopore on fourth segment; l–8 mm; about 160 living species (Martin, 2001). CLASS DIPLOPODA (MILLIPEDES) Elongate; trunk containing many diplosegments, each bearing 2 pairs of legs and spiracles; single pair of maxillae fused to form a flattened plate (gnathochilarium); first 4 trunk segments not diplosegments, and third bears the gonopores; simple eyes (ocelli) present or absent; 2 mm–28 cm; about 10,000 living species (James, 2015). CLASS PAUROPODA Antennae branched; a pair of maxillae; 9–11 trunk segments bearing legs; gonopores on third trunk segment as in diplopods; 0.5–1.5 mm; about 500 described species (Zhang, 2011). SUBPHYLUM HEXAPODA: Subphylum Hexapoda includes the most important class Insecta.
  • 8. 8 Fig.6; Dragonfly CLASS INSECTA Body composed of a head, thorax, and abdomen; head bears simple eyes and usually a pair of lateral compound eyes; 2 pairs of maxillae, the second pair fused (labium); thorax of 3 segments, each with a pair of legs, and the second and third usually bearing wings; abdomen of 11 segments without appendages in the adult; gonopore at end of abdomen; 0.25 mm–33 cm; at least 1 million described species (Martin, 2001). CLASS ENTOGNATHA It includes all the wingless insects of the subphulum hexapoda. CONCLUSION: Arthropod relationships, both within the phylum and with other animal phyla, are uncertain. For many years arthropods and annelids were believed to be closely related, with arthropods likely evolving from annelid ancestors, or vice versa. Modern analyses question that assumption, suggesting that their similarly segmented body plans would have to have evolved independently (James, 2015). Likewise, many relationships within the group are equally unsettled. For example, the terrestrial arthropods insects and myriapods are commonly believed to be closely related. It is possible that both groups derived from a common ancestor. On the other hand, accumulating molecular evidence allies insects more closely with crabs and other crustaceans and links the myriapods with horseshoe crabs and arachnids (Zhang, 2011). Furthermore, some groups of animals have been incorporated into the Arthropoda. A group of parasitic worms known as the pentastomids, for example, are considered to be highly modified crustaceans at present. In contrast, two other groups of animals, the microscopic water bears (tardigrades) and the onychophorans (such as Peripatus) are closely related to arthropods but will probably remain in one or more separate phyla (James, 2015).
  • 9. 9 REFERENCES:  Zhang Z-Q (ed) (2011) Animal biodiversity: an outline of higher-level classification and survey of taxonomic richness. Magnolia Press, Auckland  James H. Diaz, in Mandell, Douglas, and Bennett's Principles and Practice of Infectious Diseases (Eighth Edition), 2015  Fahrbach, S. E. 2004. What arthropod brains say about arthropod phylogeny. Proc. Nat. Acad. Sci. 101:3723–3724.  Marcotte, B. M. 1982. Evolution within the Crustacea, part 2:Copepoda. In L. G. Abele (Ed.), The biology of Crustacea,vol. 1. Systematics, the fossil record, and biogeography. New York: Academic Press, Inc., pp. 185–197.  Martin, J. W., and G. E. Davis. 2001. An updated classification of the recent Crustacea. Nat. Hist. Mus. Los Angeles Co. Sci. Series. Dec. 14, 2001:i–viii, 1–124.