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5. Designing Sustainable Urban Futures

Author

Albiez, Marius, Bagoly-Simó, Péter, Balouktsi, Maria, Banse, Gerhard, Brandl, Freya, Damodaran, Appakuttan, Geiger, Albert, Gothe, Kerstin, Grunwald, Armin, Haldar, Tanushree, Hemmer, Ingrid, Huning, Sandra, Lindeman, Kenyon C., Lützkendorf, Thomas, Meyer-Soylu, Sarah, Parodi, Oliver, Quint, Alexandra, Szypulski, Anja, Tulbure, Ildiko, Waitz, Colette, Albiez, Marius, Banse, Gerhard, Lindeman, Kenyon C., and Quint, Alexandra

Subjects
Urban Studies, reurbanization trend, sustainable future, SOC026030, sustainable university, sustainable living space, global urbanization, JFSG
Abstract

Many 21st century cities have the potential to be sustainable and resource-saving living spaces when multifunctional structures, well-integrated transportation infrastructure, and democratic governance processes are present. Sustainable urban futures require a focus on the needs of humans and environmental best practices, as well as on the creative scope for community-driven sustainability innovations. This book is based on contributions from science and practice to the international symposium on “Sustainable Urban Development at Different Scales” organized by the Institute for Technology Assessment and Systems Analysis at the Karlsruhe Institute of Technology, Karlsruhe, Germany, in May 2014. The symposium used the global urbanization and reurbanization trend as an opportunity to examine cities as sustainable living spaces. This book identifi es concepts, analytic approaches, and practical applications for the design of sustainable urban futures among multiple disciplines and cultural backgrounds. Viele Städte des 21. Jahrhunderts haben das Potenzial, ein nachhaltiger und ressourcenschonender Lebensraum zu sein, wenn multifunktionale Strukturen, eine gut integrierte Verkehrsinfrastruktur und demokratische Stadtentwicklungsprozesse gegeben sind. Nachhaltige Stadtzukünfte erfordern einen starken Fokus auf die Berücksichtigung menschlicher Bedürfnissen an ihren Lebensraum, auf Umweltfreundlichkeit und Gesundheit sowie die gemeinsame Gestaltung kreativer Freiräume für nachhaltige Praktiken. Diese Buch basiert auf Beiträgen aus Wissenschaft und Praxis zum internationalen Symposium „Sustainable Urban Development at Different Scales“, das im Mai 2014 am Institut für Technikfolgenabschätzung und Systemanalyse am Karlsruher Institut für Technologie stattfand. Das Symposium nahm den globalen Urbanisierungsund Reurbanisierungstrend zum Anlass, um Städte auf unterschiedlichen Maßstabsebenen als nachhaltige Lebensräume zu diskutieren. Dieses Buch bietet Analysen, Konzepte und Ansätze zur Gestaltung nachhaltiger Stadtzukünfte aus der Sicht multipler Disziplinen und vor unterschiedlichen kulturellen Hintergründen.

Published
2019

6. Mangroves enhance the biomass of coral reef fish communities in the Caribbean

Author

Mumby, Peter J., Edwards, Alasdair J., Ernesto Arias-Gonzalez, J., Lindeman, Kenyon C., Blackwell, Paul G., Gall, Angela, Gorczynska, Malgosia I., Harborne, Alastair R., Pescod, Claire L., Renken, Henk, C. C. Wabnitz, Colette, and Llewellyn, Ghislane

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Peter J. Mumby (corresponding author) [1]; Alasdair J. Edwards [2]; J. Ernesto Arias-González [3]; Kenyon C. Lindeman [4]; Paul G. Blackwell [5]; Angela Gall [2]; Malgosia I. Gorczynska [2]; [...]

Published
2004
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7. Applied Sustainability Education with a Systems Science Emphasis at a STEM University

Author

Lindeman, Kenyon C.

Subjects
Urban Studies, reurbanization trend, sustainable future, SOC026030, sustainable university, sustainable living space, global urbanization, JFSG
Abstract

1 Introduction Universities have a historic and continuous role as urban centers of education, research, and the arts: they are explicit lynchpins of culturally and technologically strong cities and societies. A fundamental university role at local through international scales is the development of innovations in any number of human endeavors (cf. Cortese 2003; Aber et al. 2009; Calder/Dautremont-Smith 2009). Gregory Trencher, Masaru Yarime, Kes B. McCormick, Christopher N. Doll and Stephen B...

Published
2019

8. Designing Sustainable Urban Futures : Concepts and Practices from Different Countries

Author

Albiez, Marius [Hrsg.], Banse, Gerhard [Hrsg.], Lindeman, Kenyon C. [Hrsg.], and Quint, Alexandra [Hrsg.]

Subjects
nachhaltige Stadtzukünfte, global urbanization and reurbanization trend, nachhaltiger Lebensraum, Technology, globaler Urbanisierungs- und Reurbanisierungstrend, sustainable university, nachhaltige Universität, sustainable urban futures, sustainable living space, ddc:600
Abstract

This book is based on contributions from science and practice to the international symposium on “Sustainable Urban Development at Different Scales”. The symposium used the global urbanization and reurbanization trend as an opportunity to examine cities as sustainable living spaces. This book identifies concepts, analytic approaches, and practical applications for the design of sustainable urban futures among multiple disciplines and cultural backgrounds.

Published
2016

9. Introduction

Author

Albiez, Marius, Banse, Gerhard, Lindeman, Kenyon C., and Quint, Alexandra

Subjects
Technology, ddc:600
Published
2016

10. Timing and locations of reef fish spawning off the southeastern United States

Author

Farmer, Nicholas A., primary, Heyman, William D., additional, Karnauskas, Mandy, additional, Kobara, Shinichi, additional, Smart, Tracey I., additional, Ballenger, Joseph C., additional, Reichert, Marcel J. M., additional, Wyanski, David M., additional, Tishler, Michelle S., additional, Lindeman, Kenyon C., additional, Lowerre-Barbieri, Susan K., additional, Switzer, Theodore S., additional, Solomon, Justin J., additional, McCain, Kyle, additional, Marhefka, Mark, additional, and Sedberry, George R., additional

Published
2017
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11. The status of marine biodiversity in the Eastern Central Atlantic (West and Central Africa)

Author

Polidoro, Beth A., Ralph, Gina M., Strongin, Kyle, Harvey, Michael, Carpenter, Kent E., Arnold, Rachel, Buchanan, Jack R., Camara, Khairdine Mohamed Abdallahi, Collette, Bruce B., Comeros-Raynal, Mia T., de Bruyne, Godefroy, Gon, Ofer, Harold, Antony S., Harwell, Heather, Hulley, Percival A., Iwamoto, Tomio, Knudsen, Steen Wilhelm, Lewembe, Jean de Dieu, Linardich, Christi, Lindeman, Kenyon C., Monteiro, Vanda, Munroe, Thomas, Nunoo, Francis K. E., Pollock, Caroline M., Poss, Stuart, Russell, Barry, Sayer, Catherine, Sidibe, Aboubacar, Smith-Vaniz, William, Stump, Emilie, Sylla, Mor, Tito de Morais, Luis, Vié, Jean-Christophe, Williams, Akanbi, Polidoro, Beth A., Ralph, Gina M., Strongin, Kyle, Harvey, Michael, Carpenter, Kent E., Arnold, Rachel, Buchanan, Jack R., Camara, Khairdine Mohamed Abdallahi, Collette, Bruce B., Comeros-Raynal, Mia T., de Bruyne, Godefroy, Gon, Ofer, Harold, Antony S., Harwell, Heather, Hulley, Percival A., Iwamoto, Tomio, Knudsen, Steen Wilhelm, Lewembe, Jean de Dieu, Linardich, Christi, Lindeman, Kenyon C., Monteiro, Vanda, Munroe, Thomas, Nunoo, Francis K. E., Pollock, Caroline M., Poss, Stuart, Russell, Barry, Sayer, Catherine, Sidibe, Aboubacar, Smith-Vaniz, William, Stump, Emilie, Sylla, Mor, Tito de Morais, Luis, Vié, Jean-Christophe, and Williams, Akanbi

Abstract

The status of marine biodiversity in the Eastern Central Atlantic (ECA), especially of coastal and pelagic fishes, is of concern owing to a number of threats including overharvesting, habitat loss, pollution, and climate change combined with inadequate policy responses, legislation, and enforcement. This study provides the first comprehensive documentation of the presence, status, and level of extinction risk, based on IUCN Red List assessment methodology, for more than 1800 marine species, including all taxonomically described marine vertebrates (marine mammals, sea turtles, seabirds, fishes); complete clades of selected marine invertebrates (sea cucumbers, cone snails, cephalopods, lobsters, reef-building corals); and marine plants (mangroves, seagrasses). Approximately 8% of all marine species assessed in the ECA are in threatened categories, while 4% are listed as Near Threatened, 73% are Least Concern, and 15% are Data Deficient. Fisheries and overharvesting are the biggest threats to living marine resources in the ECA, with 87% of threatened species across all taxonomic groups affected by both large- and small-scale targeted fisheries, excessive capture as by-catch, or unsustainable harvest. The results of this study will transform the current state of knowledge and increase capacity for regional stakeholders to identify and enact marine conservation and research priorities, as a number of species are identified as having high conservation and/or research priorities in the region. Through the process of marine species data collection and risk assessments conducted over the past 5 years, several key conservation actions and research needs are identified to enable more effective conservation of marine biodiversity in the ECA, including increased governance, multilateral collaboration, taxonomic training, and improved reporting of fisheries catch and effort.

Published
2017

12. Preserving Reef Connectivity: A Handbook for Marine Protected Area Managers. Connectivity Working Group, Coral Reef Targeted Research & Capacity Building for Management Program, UNU-INWEH

Author

Sale, P.F., van Lavieren, Hanneke, Ablan Lagman, M.C., Atema, Jelle, Butler, M, Fauvelot, Cécile, Hogan, J. Derek, Jones, Geoffrey P, Lindeman, Kenyon C., Paris, Claire B., Steneck, Robert, Stewart, Hannah L., and Fauvelot, Cecile

Subjects
[SDE.BE] Environmental Sciences/Biodiversity and Ecology, ComputingMilieux_MISCELLANEOUS
Published
2010

13. Lutjanus apodus

Author

Moura, Rodrigo L. and Lindeman, Kenyon C.

Subjects
Lutjanus apodus, Actinopterygii, Lutjanidae, Animalia, Biodiversity, Lutjanus, Chordata, Taxonomy, Perciformes
Abstract

Lutjanus apodus: MZUSP 65929 (2, 142-138), Bahamas, San Salvador Island., Published as part of Rodrigo L. Moura & Kenyon C. Lindeman, 2007, A new species of snapper (Perciformes: Lutjanidae) from Brazil, with comments on the distribution of Lutjanus griseus and L. apodus., pp. 31-43 in Zootaxa 1422 on page 32

Published
2007
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14. Lutjanus bucanella

Author

Moura, Rodrigo L. and Lindeman, Kenyon C.

Subjects
Actinopterygii, Lutjanus bucanella, Lutjanidae, Animalia, Biodiversity, Lutjanus, Chordata, Taxonomy, Perciformes
Abstract

Lutjanus bucanella: MZUSP 65240 (1, 232), Tamandar�� (8��49���S, 35��5���W), Pernambuco State, Brazil., Published as part of Rodrigo L. Moura & Kenyon C. Lindeman, 2007, A new species of snapper (Perciformes: Lutjanidae) from Brazil, with comments on the distribution of Lutjanus griseus and L. apodus., pp. 31-43 in Zootaxa 1422 on page 32

Published
2007
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15. Lutjanus alexandrei Moura & Lindeman, 2007, new species

Author

Moura, Rodrigo L. and Lindeman, Kenyon C.

Subjects
Actinopterygii, Lutjanidae, Lutjanus alexandrei, Animalia, Biodiversity, Lutjanus, Chordata, Taxonomy, Perciformes
Abstract

Lutjanus alexandrei, new species (Figures 1-3; Tables 1, 2) Lutjanus apodus not of Walbaum, 1792. Jordan, 1891:330 (Bahia); Ribeiro, 1915 (not paginated); Jordan & Fessler, 1893:510 (Pernambuco); Gilbert, 1900:170; Starks, 1913:32; Fowler, 1941:160; Allen, 1985:56 (in part); Carvalho-Filho, 1994:138 (in part); Rocha et al., 1998:562; Rocha & Rosa, 2001:990; Moura & Menezes, 2003:82 (in part). Lutjanus griseus not of Linnaeus, 1758. Ribeiro, 1915 (not paginated, in part); Ribeiro, 1918 (not paginated, in part); Menezes & Figueiredo, 1980:22 (in part), Carvalho-Filho, 1994:135 (in part); Moura & Menezes, 2003:83 (in part). Holotype: MZUSP 65664 (153) Camurupim Reef, Tamandaré (8°49'S, 35°5'W), State of Pernambuco, Brazil, 05 m depth; collected by R.L. Moura, R.B. Francini-Filho & C.H. Flesh, 22 January 1999. Paratypes (21 specimens, 69-243): USNM 388233 (1, 161), Abrolhos Bank (17°57’08”S, 38°41’W), State of Bahia, Brazil, 20 m depth, collected by R.L. Moura & R.B. Francini-Filho, 1 April 2000.MZUSP 52721 (2, 227-243) Parcel dos Abrolhos (17°57’08 S”, 38°41’6”W), Abrolhos Bank, State of Bahia, Brazil, collected by R.L. Moura, R.B. Francini-Filho, C. Sazima & I. Sazima, 22 January 1998.MZUSP 84862 (1, 108), collected with the holotype.MZUSP 66066 (1, 131) Itaparica (12°52’S, 38°41’W), State of Bahia, Brazil, collected by A. Carvalho-Filho, October 1982.MZUSP 60838 (1, 150) Parcel das Paredes (17°53’54”S, 38°57’13”W), Abrolhos Bank, State of Bahia, Brazil, collected by R.L. Moura, C.E.L. Ferreira & R.B. Francini-Filho, 19 February 2000.MZUSP 66021 (3, 82-95) Salvador (12°56’S, 38°31’W), State of Bahia, Brazil, collected by V.G. Almeida, 21 July 1970.MZUSP 65939 (3, 71-89) same locality as MZUSP 66021, collected by C.E. Dawson, N.A. Menezes & V.G. Almeida.MZUSP 66020 (1, 82) same locality as MZUSP 66066, collected by N.A. Menezes & V.G. Almeida, 24 August 1972.MZUSP 66022 (5, 69-128), Lagoa Mundaú (09°37’S, 35°48'W), Maceió, State of Alagoas, Brazil, collected by CETESB, 1985.MZUSP 66026 (1, 79) Ponta de Pedras (8°3’S, 34°46’W) State of Pernambuco, Brazil, collected by P. Montouchet, 30 August 1970.MZUSP 51167 (1, 87), same data as MZUSP 66022.MZUSP 65062 (1, 91) Fortaleza (3°45'S38°20'W) State of Ceará, Brazil, 0.5m depth (tidepool), collected by R.L. Moura, R.B. Francini-Filho & C.H. Flesh, 26 March 2000. Diagnosis. Among western Atlantic snappers, Lutjanus alexandrei is similar to the gray snapper, Lutjanus griseus (Linnaeus), and the schoolmaster, Lutjanus apodus (Walbaum), with which it shares the following characters: 14 soft dorsal-fin rays, 6 (5-7 in L. apodus) scales between lateral line and dorsal-fin origin, anchor-shaped vomerine tooth patch with a median posterior extension, upper canines much larger than lower canines. Lutjanus alexandrei differs from L. griseus by the presence of 6 pale vertical bars (sometimes faded) on the trunk (absent in L. griseus), a longer pectoral fin (length exceeding the distance from the snout to the posterior margin of preopercle), and the angularity of the dorsal scale rows below the soft dorsal fin (not markedly oblique as in L. griseus). Lutjanus alexandrei differs from L. apodus in having a red to pale-red body cast and reddish fins instead of a yellowish-pale body with yellow fins, and by having only six narrow pale vertical lines dorsally (sometimes faded) instead of eight wider pale bands as in L. apodus. The number of lateral-line scales, varying from 43 to 48, is also slightly higher than that of L. apodus (40-45), and more similar to that of L. griseus (43-47). Description. The general morphological features of Lutjanus are presented by Allen (1985) and Anderson (1987) for adults and by Lindeman et al. (2005) for larvae and juveniles, and are not repeated herein. Dorsal rays X, 14; anal rays III, 8; pectoral rays 16 (uppermost rudimentary and unbranched); pelvic rays I, 5; principal caudal rays 9+8; lateral line with 43-48 (45) pored or tubed scales forming a continuous sensory canal between the upper end of gill opening and the caudal-fin base, tubes in lateral line simple, unbranched; branchiostegal rays 7; gill rakers 17-19 (17) total, 5-6 (5) fully developed rakers on the upper limb and 6-9 (8) fully developed plus 3-5 (4) rudimentary rakers on the lower limb; gill membranes separate, free from isthmus; vertebrae 10+14. Body relatively deep, maximum depth 37.3-45.6% (40.3) of SL; snout pointed and long, 27.8-37.8% (33.9) of HL; mouth terminal, large and protractile, with one row of conical teeth in each jaw; a prominently enlarged pair of caniniform teeth on upper jaw, visible when mouth is closed, 3-5 (3) pairs of fanglike pointed conical teeth in lower jaw, vomerine tooth patch anchor-shaped, with a prominent median posterior extension. Morphometric and meristic data are summarized in Tables 1 and 2, respectively. Origin of dorsal fin slightly posterior to opercular margin; dorsal fin continuous, with only a slight notch between the spinous and soft portions. Caudal fin slightly emarginated; anal fin rounded; pectoral fin pointed and reaching the level of anus, length longer than the distance from tip of snout to posterior edge of preopercle, and 3.0-3.6 (3.5) times in SL. Nostrils small, posterior nostril elongate and at level of pupil, anterior nostril more rounded and located slightly below the level of the posterior one. Preopercle serrate, its lower margin with visible but weak notch and knob. Scales small, ctenoid, not extending dorsally on head above upper margin of orbit nor onto interorbital and internarial space; scales above lateral line (between dorsal-fin origin and lateral line) 6; transverse scale rows between upper edge of opercle and caudal base 37-47 (39); scale rows on cheek 6-7 (7); soft dorsal and anal fins scaled; dorsal scale rows parallel to the longitudinal body axis. Reddish body cast in life (Figure 2), becoming light brown dorsally and pale ventrally in preserved specimens (Figure 1). Body scales with more intense pigmentation on margins, paler in centers. Sides with six pale, thin, vertical lines dorsally. First band on the nape in front of the dorsal fin, fifth under the junction of spiny and soft portion of dorsal fin, and sixth bellow soft dorsal fin. These pale lines are still visible in some preserved specimens but, as observed by Starck (1970) for L. apodus, some specimens may lack these lines. Conspicuous spots (blue in life) are present on the cheek and preopercle, 7-10 of these typically present on snout and ventral portion of head, most below ventral margin of orbit and above superior margin of premaxilla. Median fins red, with more dense pigment on the margins, becoming pale brown in preserved specimens. Live individuals with thin blue distal margins on ventral, anal, and soft dorsal fins (Figure 2) that are not apparent in preserved specimens (Figure 1). Pupils black, iris reddish copper. In life, early juveniles less than approximately 5 cm typically have reddish or gray bodies and fins. Between 2-3 cm SL, specimens from shaded mangrove areas have dense melanophore rows on body, 6-8 pale vertical bands, and an oblique, black eye stripe (Figure 3). Distal portions of first dorsal and pelvic fins dark red. Caudal, soft dorsal, posterior elements of anal, and pectoral fins transparent. Two thin blue lines from maxilla to posterior margin of opercle. Short, oblique blue line from posterior orbit to opercular margin (Figure3). Specimens from unshaded rocky areas or tidepools can also exhibit pale yellow pigment dorsally and on the distal portions of the soft dorsal and caudal fins. Newly settled individuals from softbottom adjacent to mangroves lack red fin pigment, instead with melanophores concentrated distally on first dorsal, pelvic and anterior anal fins. Remaining fins transparent. Lateral bands on body, and blue and black lines on head begin development by 15 mm. Etymology. The specific name honors the pioneer Brazilian naturalist Alexandre Rodrigues Ferreira (1756-1815), whose many years of field work in Brazil during the late 18th Century remain underrecognized due to the confiscation of his and others’ collections at Lisbon’s Museu da Ajuda in 1808 (Oliveira & Daly 2001). Ferreira collected many specimens that were ultimately described as new without any reference to his efforts. The common name Brazilian snapper is proposed for L. alexandrei. Distribution, ecology and behavior. The Brazilian snapper, L. alexandrei is only recorded from the tropical portion of the southwestern Atlantic continental shelf, and has a narrower latitudinal range than other Western Atlantic species of Lutjanus. It is known from the state of Maranhào (00°52’S) to the southern coast of the state of Bahia (18°0’S), Brazil, in areas under the influence of the west-flowing Equatorial Current (northern Brazil) and the south-flowing Brazil Current (northeastern Brazil). It is apparently absent from oceanic islands. Additional collections may show an even broader distributional range for this species, as was the case with 48 other poorly known reef-fish species in the southwestern Atlantic (Moura et al. 1999). Habitats of the Brazilian snapper include coral reefs, rocky shores, coastal lagoons with brackish water, mangroves and other shallow habitats with a mixture of soft- and hard-bottom. Recorded depths range from intertidal (early stages only) to at least 54 m (Feitoza et al. 2005 - identified as L. apodus). During the day, adults of L. alexandrei were observed on reefs as solitary individuals or in small groups showing restricted activity. Adults can co-occur with L. jocu (see figure on page 40 in MMA 2002, several L. alexandrei were misidentified as L. jocu). These mixed groups are often composed of large (> 20 cm), probably adult, individuals. Similar to several other Lutjanus species, this species appears to be active predominantly during crepuscular and nocturnal periods. Juveniles smaller than 10 cm SL can be common in mangroves and rocky tidepools, sometimes together with L. jocu juveniles, and may also occur in other shallow habitats. Based on available information, early juvenile stages of L. alexandrei are uncommon or rare in deeper, offshore reef habitats, as in many congeners (Lindeman et al. 1998, Lindeman & DeMaria 2005). Discussion The existing literature typically gives the southern distributional limits of L. griseus and L. apodus as southeastern Brazil and northeastern Brazil, respectively (e.g. Menezes & Figueiredo 1980, Uyeno et al. 1983, Allen 1985, Moura & Menezes 2003). All examined lots labeled as Lutjanus griseus and L. apodus in the two major marine fish collections in Brazil (MZUSP and MNRJ) are actually L. alexandrei. We have determined from photographs or voucher materials that all lutjanids commonly identified as L. griseus or L. apodus in field surveys also are L. alexandrei. The same result applies for reef and estuarine fishery catches. The presence of either species in Brazil is highly doubtful given their absence in Brazilian museum collections, field surveys, and fishery landings. In the southwestern Atlantic there are cases of Caribbean fishes restricted to offshore islands [e.g. Inermia vitatta (Inermiidae) and Haemulon chrysargyreum (Haemulidae)] (Moura & Sazima 2003) or occurring only along restricted portions of the coast [e.g. Chromis scotti (Pomacentridae)] (Moura et al. 1999, Rocha & Rosa 2001). With more surveys, small populations of L. griseus or L. apodus could be definitively recorded from offshore or mainland sites in Brazil. Clearly, the abundant and widespread L. alexandrei is not a product of current hybridization of L. griseus and L. apodus, which, if present in Brazil, must be highly uncommon. Other prominent reef species have also been erroneously recorded from Brazil, including Epinephelus striatus and Lachnolaimus maximus (Serranidae and Labridae) (Sadovy and Eklund 1999, Moura & Sazima 2003). Careful examination of a wide array of seemingly pan-western Atlantic reef species may result in additional changes to long-assumed southern distributions. Recent discoveries of new species belonging to major coastal fish families in Brazil (referenced in Introduction) suggest a considerable level of isolation between Caribbean and Brazilian populations of coastal fishes, especially those that associate with reefs. Genetic studies also indicate limited gene flow between these two zoogeographic areas, even within groups with a high potential for dispersion such as surgeonfishes (Rocha et al. 2002). Mechanisms of speciation and faunal enrichment in another group of coastal fishes (Scaridae) were recently studied in the Atlantic by Robertson et al (2006), based on mtDNA and nDNA sequences to assess the effects of two major geographic barriers (the>30 million year old Atlantic ocean and the ~11 million year old Amazon -Orinoco outflow). Fluctuations in sea level, climate, and ocean-current dynamics over the past ~10 million years likely produced marked variation in the effectiveness of the Amazon barrier, allowing intermittent dispersal leading to establishment and allopatric speciation. This dynamic Amazon barrier represents a major engine of West Atlantic faunal enrichment that has repeatedly facilitated bi-directional dispersal, allopatric speciation, and remixing of the Caribbean and Brazilian faunas (Moura & Sazima 2003, Rocha 2004, Robertson et al. 2006). Because of this considerable isolation, caution should be used when management decisions are based on populations from different sides of the Amazon-Orinoco barrier. Moreover, several of the recently discovered species are relatively abundant on coastal habitats such as reefs and mangroves, but were frequently misidentified(see Rocha & Rosa 1999, Moura et al. 2001). This amplifies the need for depositing voucher specimens from ecological and fishery studies in major collections, supports the call for collection building in developing countries, and stresses the need for additional analyses of the numerous systematic problems peculiar to tropical coastal ichthyofaunas.

Published
2007
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16. Lutjanus cyanopterus

Author

Moura, Rodrigo L. and Lindeman, Kenyon C.

Subjects
Lutjanus cyanopterus, Actinopterygii, Lutjanidae, Animalia, Biodiversity, Lutjanus, Chordata, Taxonomy, Perciformes
Abstract

Lutjanus cyanopterus: MZUSP 65931 (1, 131), Lagoa de Munda�� (9��37���S, 35��48���W), Macei��, State of Alagoas, Brazil., Published as part of Rodrigo L. Moura & Kenyon C. Lindeman, 2007, A new species of snapper (Perciformes: Lutjanidae) from Brazil, with comments on the distribution of Lutjanus griseus and L. apodus., pp. 31-43 in Zootaxa 1422 on page 32

Published
2007
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17. Lutjanus synagris

Author

Moura, Rodrigo L. and Lindeman, Kenyon C.

Subjects
Lutjanus synagris, Actinopterygii, Lutjanidae, Animalia, Biodiversity, Lutjanus, Chordata, Taxonomy, Perciformes
Abstract

Lutjanus synagris: MZUSP 65242 (1, 205), same locality as MZUSP 65240., Published as part of Rodrigo L. Moura & Kenyon C. Lindeman, 2007, A new species of snapper (Perciformes: Lutjanidae) from Brazil, with comments on the distribution of Lutjanus griseus and L. apodus., pp. 31-43 in Zootaxa 1422 on page 33

Published
2007
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18. Transforming management of tropical coastal seas to cope with challenges of the 21st century

Author

Sale, Peter F., Agardy, Tundi, Ainsworth, Cameron H., Feist, Blake E., Bell, Johann D., Christie, Patrick, Hoegh-Guldberg, Ove, Mumby, Peter J., Feary, David A., Saunders, Megan I., Daw, Tim M., Foale, Simon J., Levin, Phillip S., Lindeman, Kenyon C., Lorenzen, Kai, Pomeroy, Robert S., Allison, Edward H., Bradbury, R. H., Corrin, Jennifer, Edwards, Alasdair J., Obura, David O., de Mitcheson, Yvonne J. Sadovy, Samoilys, Melita A., Sheppard, Charles R. C., Sale, Peter F., Agardy, Tundi, Ainsworth, Cameron H., Feist, Blake E., Bell, Johann D., Christie, Patrick, Hoegh-Guldberg, Ove, Mumby, Peter J., Feary, David A., Saunders, Megan I., Daw, Tim M., Foale, Simon J., Levin, Phillip S., Lindeman, Kenyon C., Lorenzen, Kai, Pomeroy, Robert S., Allison, Edward H., Bradbury, R. H., Corrin, Jennifer, Edwards, Alasdair J., Obura, David O., de Mitcheson, Yvonne J. Sadovy, Samoilys, Melita A., and Sheppard, Charles R. C.

Abstract

Over 1.3 billion people live on tropical coasts, primarily in developing countries. Many depend on adjacent coastal seas for food, and livelihoods. We show how trends in demography and in several local and global anthropogenic stressors are progressively degrading capacity of coastal waters to sustain these people. Far more effective approaches to environmental management are needed if the loss in provision of ecosystem goods and services is to be stemmed. We propose expanded use of marine spatial planning as a framework for more effective, pragmatic management based on ocean zones to accommodate conflicting uses. This would force the holistic, regional-scale reconciliation of food security, livelihoods, and conservation that is needed. Transforming how countries manage coastal resources will require major change in policy and politics, implemented with sufficient flexibility to accommodate societal variations. Achieving this change is a major challenge - one that affects the lives of one fifth of humanity.

Published
2014
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19. Transforming management of tropical coastal seas to cope with challenges of the 21st century

Author

Sale, Peter F, Agardy, Tundi, Ainsworth, Cameron H, Feist, Blake E, Bell, Johann D, Christie, Patrick, Hoegh-Guldberg, Ove, Mumby, Peter J, Feary, David A, Saunders, Megan I, Daw, Tim M, Foale, Simon J, Levin, Phillip S, Lindeman, Kenyon C, Lorenzen, Kai, Pomeroy, Robert S, Allison, Edward H, Bradbury, Roger, Corrin, Jennifer, Edwards, Alasdair J, Obura, David O, Sadovy De Mitcheson, Yvonne J, Samoilys, Melita A, Sheppard, Charles R.C, Sale, Peter F, Agardy, Tundi, Ainsworth, Cameron H, Feist, Blake E, Bell, Johann D, Christie, Patrick, Hoegh-Guldberg, Ove, Mumby, Peter J, Feary, David A, Saunders, Megan I, Daw, Tim M, Foale, Simon J, Levin, Phillip S, Lindeman, Kenyon C, Lorenzen, Kai, Pomeroy, Robert S, Allison, Edward H, Bradbury, Roger, Corrin, Jennifer, Edwards, Alasdair J, Obura, David O, Sadovy De Mitcheson, Yvonne J, Samoilys, Melita A, and Sheppard, Charles R.C

Abstract

Over 1.3 billion people live on tropical coasts, primarily in developing countries. Many depend on adjacent coastal seas for food, and livelihoods. We show how trends in demography and in several local and global anthropogenic stressors are progressively degrading capacity of coastal waters to sustain these people. Far more effective approaches to environmental management are needed if the loss in provision of ecosystem goods and services is to be stemmed. We propose expanded use of marine spatial planning as a framework for more effective, pragmatic management based on ocean zones to accommodate conflicting uses. This would force the holistic, regional-scale reconciliation of food security, livelihoods, and conservation that is needed. Transforming how countries manage coastal resources will require major change in policy and politics, implemented with sufficient flexibility to accommodate societal variations. Achieving this change is a major challenge - one that affects the lives of one fifth of humanity.

Published
2014

23. Coastal Climate Adaptation Literatures of the Southeast and Northeast U.S.: Regional Comparisons among States and Document Sources.

Author

Lindeman, Kenyon C., Giannoulis, Christos, and Beard, Bryce R.

Subjects
CLIMATE change, COASTAL ecology, NONGOVERNMENTAL organizations, SEA level, OCEAN waves
Abstract

Challenges remain in optimizing the use of increasingly large inflows of climate adaptation articles and guidance documents to improve coastal science and engineering practices. In addition to four major academic databases, the large grey literature was quantified by analyzing web sources of hundreds of government, nonprofit and university reports not previously included in reviews. Three spatial scales were examined for differences in amount and timing of adaptation documents: (a) between region (southeast and northeast U.S.); (b) among sub-region (Florida and Carolinas; New York/New Jersey and New England); and (c) among states (ten states total). Comparisons were also made across spatial scales for document sources (academic journals, government, non-governmental organizations (NGO), university, mixed sources), including four governance subcategories (federal, state, regional and local). Differences were identified among some spatial scales in academic vs. grey literature and among categories of grey literature. 53% of the literature was from grey sources (21% government, 10% university, 8% nonprofit and 14% mixed sources). This literature can be large and is grounded in applied, experiential knowledge, yet is unavailable in almost all academic databases. These relatively hidden documents provide insight into on-the-ground science and engineering case-histories, policy innovations, and power relationships across scales of geography and governance. [ABSTRACT FROM AUTHOR]

Published
2018
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24. A global baseline for spawning aggregations of reef fishes.

Author

Sadovy De Mitcheson Y, Cornish A, Domeier M, Colin PL, Russell M, and Lindeman KC

Subjects
Animals, Asia, Conservation of Natural Resources methods, Databases, Factual, Interviews as Topic, Oceans and Seas, Population Dynamics, Conservation of Natural Resources statistics & numerical data, Fisheries statistics & numerical data, Fishes physiology, Sexual Behavior, Animal physiology, Social Behavior
Abstract

Species that periodically and predictably congregate on land or in the sea can be extremely vulnerable to overexploitation. Many coral reef fishes form spawning aggregations that are increasingly the target of fishing. Although serious declines are well known for a few species, the extent of this behavior among fishes and the impacts of aggregation fishing are not appreciated widely. To profile aggregating species globally, establish a baseline for future work, and strengthen the case for protection, we (as members of the Society for the Conservation of Reef Fish Aggregations) developed a global database on the occurrence, history, and management of spawning aggregations. We complemented the database with information from interviews with over 300 fishers in Asia and the western Pacific. Sixty-seven species, mainly commercial, in 9 families aggregate to spawn in the 29 countries or territories considered in the database. Ninety percent of aggregation records were from reef pass channels, promontories, and outer reef-slope drop-offs. Multispecies aggregation sites were common, and spawning seasons of most species typically lasted <3 months. The best-documented species in the database, the Nassau grouper (Epinephelus striatus), has undergone substantial declines in aggregations throughout its range and is now considered threatened. Our findings have important conservation and management implications for aggregating species given that exploitation pressures on them are increasing, there is little effective management, and 79% of those aggregations sufficiently well documented were reported to be in decline. Nonetheless, a few success stories demonstrate the benefits of aggregation management. A major shift in perspective on spawning aggregations of reef fish, from being seen as opportunities for exploitation to acknowledging them as important life-history phenomena in need of management, is urgently needed.

Published
2008
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