{"id":54,"date":"2017-05-19T14:25:35","date_gmt":"2017-05-19T14:25:35","guid":{"rendered":"http:\/\/dereklee.peachpuff-wolverine-566518.hostingersite.com\/?p=54"},"modified":"2017-05-19T14:25:35","modified_gmt":"2017-05-19T14:25:35","slug":"its-been-a-fantastic-18-months-for-giraffe-science","status":"publish","type":"post","link":"https:\/\/scienceblog.com\/dereklee\/54\/its-been-a-fantastic-18-months-for-giraffe-science\/","title":{"rendered":"It’s Been A Fantastic 18 Months For Giraffe Science"},"content":{"rendered":"

We\u2019ve had a fantastic 18 months of giraffe science publishing at the Wild Nature Institute, with 10 papers out in peer-reviewed scientific journals. These papers are all the product of our Masai Giraffe Conservation Demography Project, which is the largest individual-based study of giraffes in the world. We are grateful to the amazing giraffe scientists who came before us like Anne Dagg, Fred Bercovitch, Russel Seymour, Bryan Shorrocks, Francois Deacon, John Doherty, Frederic Mineur, Isabelle Ciofolo, Megan Strauss, Zoe Muller, David Brown, Julian Fennessey, and many others who laid the foundation for our work. Here is a summary of what we\u2019ve discovered about giraffes in Tanzania that will help conserve these magnificent beasts throughout Africa.<\/p>\n

Precision, accuracy, and costs of survey methods for giraffe Giraffa camelopardalis<\/em><\/a><\/strong> was one of our first publications from the project. We estimated giraffe density and abundance in the Tarangire Ecosystem in northern Tanzania using 2 ground survey methods, distance sampling and capture-mark-recapture, and compared our ground-based estimates with those from the most recent aerial survey. We found aerial survey estimates were biased low, while ground-based surveys were more precise and cost less. However, aerial surveys are used over large regions of Tanzania and thus can provide landscape-scale population estimates. We computed correction factors to improve the accuracy of aerial surveys and suggested ways to further improve aerial survey methods.<\/p>\n

Our two papers about Giraffe Skin Disease (GSD), The occurrence and prevalence of giraffe skin disease in protected areas of northern Tanzania<\/a><\/strong>, and Soil correlates and mortality from giraffe skin disease in Tanzania<\/a> <\/strong>described the disorder in the Journal of Wildlife Diseases. We documented that GSD prevalence was best explained by soil fertility, with less disease on more fertile soils. We found no mortality effect of GSD on adult giraffe in Tarangire National Park. Based on our findings, GSD is unlikely to warrant immediate veterinary intervention, but continued monitoring is recommended to ensure early detection if GSD-afflicted animals begin to show signs of increased mortality or other adverse effects.<\/p>\n

In Spatial variation in giraffe demography: a test of 2 paradigms<\/a>, <\/strong>we examined whether spatial variation in demography of a tropical megaherbivore (the giraffe) followed the \u201ctemporal paradigm\u201d or the \u201cadult survival paradigm\u201d of ungulate population dynamics that were formed from temperate-zone studies. We quantified how giraffe demographic rates of survival and reproduction varied across space at regional (northern Tanzania) and continental (Africa-wide) scales. Spatial variability of demographic rates at the continental scale supported the temporal paradigm of low variability in adult survival and more highly variable reproduction and calf survival. In contrast, at the regional scale, adult female survival had higher spatial variation, which supported the adult survival paradigm. At both scales, variation in adult female survival made the greatest contribution to variation in local population growth rates. We also found human-caused reductions in adult female giraffe survival are the most likely reasons of population declines.<\/p>\n

In Giraffe demography and population ecology<\/a><\/strong>, we summarized current knowledge of demography and population ecology of giraffes and provided a framework for using population models when developing and evaluating conservation and management efforts for giraffes (or other large herbivore species).<\/p>\n

In Migratory herds of wildebeests and zebras indirectly affect calf survival of giraffes<\/a><\/strong>, we utilized our data about a large-mammal predator\u2013prey savanna food web to evaluate support for 2 hypotheses relating to the indirect effects of \u201capparent competition\u201d and \u201capparent mutualism\u201d. \u00a0We examined how migratory herds of wildebeests (Connochaetes taurinus<\/em>) and zebras (Equus quagga<\/em>) affected survival of resident giraffe calves, as mediated by their shared predator, African lions (Panthera leo<\/em>). African lions are generalist predators whose primary, preferred prey are wildebeests and zebras, but lion predation on secondary prey such as giraffes may change according to the relative abundance of the primary prey species. We found that local lion predation pressure on giraffes was reduced by local density of wildebeests and zebras, making giraffe neonatal and calf survival probabilities higher when the migratory herds were present. This supported the apparent mutualism hypothesis.<\/p>\n

Because natural predation had a significant effect on giraffe calf and neonate survival, and could significantly affect giraffe population dynamics, if wildebeest and zebra populations in this ecosystem continue to decline as a result of increasingly disrupted migrations and poaching, then giraffe calves will face increased predation pressure as the predator\u2013prey ratio increases. Our results suggest that the widespread population declines observed in many migratory systems are likely to trigger demographic impacts in other species due to indirect effects like those shown here.<\/p>\n

We were proud to contribute to the IUCN Red List Assessment for giraffes<\/a><\/strong>, which reclassified giraffes as Vulnerable due to an observed population decline of 36\u201340% over three generations (30 years, 1985\u20132015). The factors causing this decline (direct killing and habitat loss) have not ceased throughout the species\u2019 range. The best available estimates indicate a total population in 1985 of 151,702\u2013163,452 Giraffes (106,191\u2013114,416 mature individuals), and in 2015 a total population of 97,562 Giraffes (68,293 mature individuals). Some giraffe populations are stable or increasing, while others are declining, and each population is subject to pressure by threats specific to their local country or region. The populations of giraffes are scattered and fragmented with different growth trajectories and threats, but the species trend reveals an overall large decline in numbers across its range in Africa.<\/p>\n

We also documented for the first time that Season of birth affects juvenile survival of giraffe<\/a><\/strong>. Variation in timing of reproduction and subsequent juvenile survival often plays an important role in population dynamics of temperate and boreal ungulates. Tropical ungulates often give birth year round, but survival effects of birth season for tropical ungulate species were previously unknown. We found significant differences in juvenile survival according to season of birth, with calves born during the dry season experiencing the highest survival probability. Phenological match (matching birth season with vegetation growth) may explain the juvenile survival advantage to offspring born during the dry season from 1) greater accumulated maternal energy reserves in mothers who conceived in the long rainy season, 2) high-protein browse in the late dry-early short rainy seasons supplementing maternal and calf resources, 3) reduced predation due to decreased stalking cover, or some combination of these. Asynchrony is believed to be the ancestral state of all ungulates, and this investigation illustrated how seasonal variation in vegetation can affect juvenile survival and may have played a role in the evolution of synchronous births.<\/p>\n

We also contributed to a lively discussion about How many species of giraffe are there?<\/a> \u00a0<\/strong>Giraffes are presently classified as one species, with nine subspecies. A paper in Current Biology<\/em> presented DNA data and a taxonomy with four species of giraffe. The present consensus of one species divided into nine subspecies had previously been questioned several times over the past few decades. We presented the various taxonomic schemes and offered that the fundamental reason for different taxonomic interpretations is that they are based upon different datasets that adopt different statistical techniques and follow different criteria. These different taxonomies create a basis for future taxonomy discussions and conservation efforts.<\/p>\n

Our latest paper, Movements and source\u2013sink dynamics of a Masai giraffe metapopulation<\/a>, <\/strong>provided a regional metapopulation analysis to inform conservation management for Masai giraffes in five subpopulations defined by land management designations. We assessed the source\u2013sink structure of the study population, and we created a matrix metapopulation model to examine how variation in demographic components of survival, reproduction, and movement affected metapopulation growth rate. Movement data indicated no subpopulation was completely isolated, but movement probabilities varied among subpopulations. Source\u2013sink statistics and flow of individuals indicated three subpopulations were sources, while two subpopulations were sinks. We found areas with higher wildlife protection efforts and fewer anthropogenic impacts were sources, and less-protected areas were identified as sinks. Our results highlight the importance of identifying source\u2013sink dynamics among subpopulations for effective conservation planning and emphasize how protected areas can play an important role in sustaining metapopulations.<\/p>\n

We are currently collecting more data and conducting lots more analyses that will investigate giraffe social structure, how sociality affects survival and reproduction, and other interesting topics. Check out our work at www.WildNatureInstitute.org<\/a> .<\/p>\n

 <\/p>\n","protected":false},"excerpt":{"rendered":"

We\u2019ve had a fantastic 18 months of giraffe science publishing at the Wild Nature Institute, with 10 papers out in peer-reviewed scientific journals. These papers are all the product of our Masai Giraffe Conservation Demography Project, which is the largest individual-based study of giraffes in the world. We are grateful to the amazing giraffe scientists … Read more<\/a><\/p>\n","protected":false},"author":284,"featured_media":55,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"generate_page_header":"","jetpack_post_was_ever_published":false,"_jetpack_newsletter_access":"","_jetpack_dont_email_post_to_subs":false,"_jetpack_newsletter_tier_id":0,"_jetpack_memberships_contains_paywalled_content":false,"_jetpack_memberships_contains_paid_content":false,"footnotes":"","jetpack_publicize_message":"","jetpack_publicize_feature_enabled":true,"jetpack_social_post_already_shared":true,"jetpack_social_options":{"image_generator_settings":{"template":"highway","default_image_id":0,"font":"","enabled":false},"version":2}},"categories":[22,2,21,3],"tags":[5,6,7,4,23],"class_list":["post-54","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-animal","category-ecology","category-giraffe","category-wildlife-conservation","tag-animals","tag-giraffe","tag-wild-nature-institute","tag-wildlife","tag-wildlife-conservation"],"yoast_head":"\nIt's Been A Fantastic 18 Months For Giraffe Science - Derek Lee<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/scienceblog.com\/dereklee\/54\/its-been-a-fantastic-18-months-for-giraffe-science\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"It's Been A Fantastic 18 Months For Giraffe Science\" \/>\n<meta property=\"og:description\" content=\"We\u2019ve had a fantastic 18 months of giraffe science publishing at the Wild Nature Institute, with 10 papers out in peer-reviewed scientific journals. 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Current research investigates Masai Giraffe and other large mammal populations within a fragmented landscape in Tanzania. This work examines how births, deaths, and movements of ungulates are impacted by increasingly fragmented wildlife habitat, and what conservation actions are most effective. He spent 10 years researching the impacts of climate and ocean conditions on survival, reproduction, and population growth rates of marine predators such as northern elephant seals, Common Murres, and Cassin's Auklets at the South Farallon Islands, California. His work was included in a conservation and management plan for seabirds in the California Current. 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