Bigheaded carps (<Emphasis Type="Italic">Hypophthalmichthys</Emphasis> spp.) at the edge of their invaded range: using hydroacoustics to assess population parameters and the efficacy of harvest as a control strategy in a large North American river

The threat posed by bigheaded carps (Hypophthalmichthys spp.) to novel ecosystems has focused efforts on preventing further range expansion; upstream progression in the Illinois River is a major concern due to its connection with the uninvaded Great Lakes. In addition to an electric barrier system, commercial harvest of silver carp (H. molitrix) and bighead carp (H. nobilis) in the upper river is intended to reduce propagule pressure and prevent range expansion. To quantify demographics and evaluate harvest efficacy, the upper river was sampled between 2012 and 2015 using mobile hydroacoustic methods. Reach-specific densities, size structures and species compositions varied interannually but the advancing population was characterized longitudinally as small-bodied, silver carp-dominated at the highest densities downstream, shifting to large-bodied, bighead carp-dominated at the low-density population front. The use of hydroacoustic sampling for harvest evaluation was validated in backwater lakes; there was a significant positive correlation between density estimates and the corresponding harvest catch-per-unit-effort of bigheaded carps. Localized densities of bigheaded carps were reduced by up to 64.4 % immediately post-harvest but generally rebounded within weeks. However, annual sampling of the entire upper river indicated that density of bigheaded carps decreased by over 40 % (between 2012 and 2013) and subsequently remained stable (between 2013 and 2014). The annual harvest of bigheaded carps increased during this period (from 45,192 to 102,453 individuals), in years of contrasting discharge conditions. At this spatiotemporal scale, harvest appears to have contributed to initial reduction, and subsequent maintenance of, bigheaded carps density levels, but discharge likely plays an important role (e.g., through immigration) in determining the extent of its impact. Mobile hydroacoustic sampling enabled robust quantification of the population over varying spatial scales and density gradients, highlighting the potential of this approach as an assessment tool for invasive fishes in riverine environments.     

Invasive Silver Carp movement patterns in the predominantly free-flowing Wabash River (Indiana,USA)

Many organisms must move among habitats to fulfill life history requirements. Fish movements have been widely studied and tend to be either fine-scale (i.e., routine) and governed by factors such as food availability and cover, or broad-scale and associated with spawning migrations. However, movements of invasive fishes in non-native ecosystems are comparatively poorly understood despite the often critical importance of fish movement and dispersal for invasion success. We examined invasive Silver Carp (Hypophthalmichthys molitrix) movements using acoustic telemetry to monitor the timing, distance, and direction of fish movements and assessed movements in relation to seasonal, annual, environmental, and individual factors in the Wabash River (Indiana, USA), a largely unregulated Midwestern river. Silver Carp exhibited highly variable movements that could be rapid and large in magnitude; however, tagged individuals remained stationary most of the time. Despite high variability, several trends emerged, indicating the importance of backwater habitats, avoidance of small tributaries, and tendencies of tagged fish to exhibit directed spring and fall broad-scale movements. Summer movements were smaller in magnitude, characterized by lower movement rates, and evenly split between upstream and downstream directions, although tagged Silver Carp moved more frequently during summer months. Our results indicate that specific seasons (i.e., spring and early fall) and locations (i.e., backwaters) are likely targets for Silver Carp control in the Wabash River and should also be useful targets for early detection and control in other largely unconstrained rivers over a broad geographic range (e.g., Great Lakes tributaries and upper Mississippi River mainstem and tributaries).     

Anticipating the spread and ecological effects of invasive bigheaded carps (<Emphasis Type="Italic">Hypophthalmichthys</Emphasis> spp.) in North America: a review of modeling and other predictive studies

Bighead carp (Hypophthalmichthys nobilis Valenciennes 1844) and silver carp (H. molitrix Richardson 1845), collectively called bigheaded carps, have invaded the Mississippi River Basin and may have already entered the Laurentian Great Lakes where they could affect fishing and other industries. Developing models to predict potential spread and effects is difficult because local adaptation may have occurred among populations, parameter values for biological characteristics vary widely for these opportunistic generalists, and methodological differences complicate comparison and synthesis of studies. I review bigheaded carp biological parameters across a wide range of literature, including studies of native and introduced populations. I then evaluate how predictive models are parameterized, noting inconsistencies and highlighting data gaps. My analysis finds that although parameter values tend to vary substantially among and within systems, models are generally parameterized using the best information available, although bioenergetics and trophic models particularly need improvement. Some predictive tools can be updated using existing data (e.g., velocity requirements for spawning), but in other cases further research is needed. Research priorities include (1) better understanding bigheaded carp phenotypic plasticity among and within systems, (2) determining key biological traits of bigheaded carp populations at risk of seeding further invasions (e.g., Illinois River populations that may spread to Lake Michigan), and (3) monitoring bigheaded carp ecological effects on native fishes and plankton communities. A more complete awareness of strengths and limitations of predictive tools will lead to their improvement, thereby aiding managers in anticipating and counteracting bigheaded carp spread and effects.     

Early generation hybrids may drive range expansion of two invasive fishes

1. Introgressive hybridisation between two invasive species has the potential to contribute to their invasion success and provide genetic resiliency to rapidly adapt to new environments. Additionally, differences in the behaviour of hybrids may lead to deleterious ecosystem effects that compound any negative impacts of the invading parental species.
2. Invasive silver carp (Hypophthalmichthys molitrix) and bighead carp (Hypophthalmichthys nobilis) provide an opportunity to evaluate how hybridisation may influence the behaviour, dispersal, and spread of an invasive species introgressive complex. In order to investigate the role hybrids may have in the invasion ecology of bigheaded carps, we examined the distribution, movements, and environmental cues for movement of two invasive fishes and their hybrids in the Illinois River (U.S.A.).
3. Early generation hybrids (e.g. F₁,F₂, and first-generation backcross individuals) composed a greater proportion of the population at the invasion front where abundances of bigheaded carp were low. A greater proportion of early hybrids passed through dams upstream towards the invasion front than did other hybrids and parental species.
4. The movements and environmental cues for movement of late-generation backcrosses (more genetically similar to parental genotype) were not different from the parental species with which they shared the most alleles. Although the direction of the relationship between movement and environment was sometimes different for the parental species and associated advanced generation hybrids, these results indicate that management for parental species will also affect most hybrids.
5. Although early generation hybrids are rare, our results indicate they may disperse towards low-density population zones (i.e. invasion fronts) or are produced at greater frequency in low-density areas. These rare hybrids have the potential to produce a variety of unique genetic combinations that could result in more rapid adaptation of a non-native population to their invaded range potentially facilitating the establishment of invasive species.

     

Detecting the movement and spawning activity of bigheaded carps with environmental DNA

Bigheaded carps are invasive fishes threatening to invade the Great Lakes basin and establish spawning populations, and have been monitored using environmental DNA (eDNA). Not only does eDNA hold potential for detecting the presence of species, but may also allow for quantitative comparisons like relative abundance of species across time or space. We examined the relationships among bigheaded carp movement, hydrography, spawning and eDNA on the Wabash River, IN, USA. We found positive relationships between eDNA and movement and eDNA and hydrography. We did not find a relationship between eDNA and spawning activity in the form of drifting eggs. Our first finding demonstrates how eDNA may be used to monitor species abundance, whereas our second finding illustrates the need for additional research into eDNA methodologies. Current applications of eDNA are widespread, but the relatively new technology requires further refinement.     

Tag retention and survival of juvenile bighead carp implanted with a dummy acoustic tag at three temperatures

Bighead carp Hypophthalmichthys nobilis and silver carp Hypophthalmichthys molitrix (together, the bigheaded carps) are invasive fishes in North America that have resulted in substantial negative effects on native fish communities and aquatic ecosystems. Movement and behavior of adult bigheaded carps has been studied previously using telemetry, while similar studies with juvenile bigheaded carps have yet to be attempted. Recent technological advances in telemetry transmitters has increased the availability of tags sufficiently small enough to implant in juvenile carps. However, the effects of surgical implantation of telemetry tags on juvenile bigheaded carps have not been evaluated. We determined tag retention and survival associated with surgical implantation of acoustic telemetry tags into juvenile bighead carp (range 128–152 mm total length) at three temperatures (13, 18, and 23°C). In addition, we assessed the effect of surgically implanted transmitters on the fitness, defined as changes in weight or critical swimming speed, of carp implanted with transmitters. Survival was high among tagged fish (85%) with 47% of tags retained at the conclusion of the 45‐day study. No substantial decline in fitness of the fish was observed in tagged fish compared to untagged fish.     

Water guns affect abundance and behavior of bigheaded carp and native fish differently

Water guns have shown the potential to repel nuisance aquatic organisms. This study examines the effects of exposure to a 1966.4 cm³ seismic water gun array (two guns) on the abundance and behavior of Bighead Carp Hypophthalmichthys nobilis, Silver Carp H. molitrix (collectively referred to as bigheaded carp) and native fishes (e.g., Smallmouth Buffalo Ictiobus bubalus). Water guns were deployed in a channel that connects the Illinois River to backwater quarry pits that contained a large transient population of bigheaded carp. To evaluate the effect of water guns, mobile side-looking split-beam hydroacoustic surveys were conducted before, during and between replicated water gun firing periods. Water guns did not affect abundance of bigheaded carp, but abundance of native fish detected during the firing treatment was 43 and 34% lower than the control and water guns off treatments, respectively. The proximity of bigheaded carp to the water gun array was similar between the water guns on and water guns off treatments. In contrast, the closest detected native fish were detected farther from the water guns during the water guns on treatment (mean ± SE, 32.38 ± 3.32 m) than during the water guns off treatment (15.04 ± 1.59 m). The water gun array had a greater impact on native fish species than on bigheaded carp. Caution should be taken to the extrapolation of these results to other fish species and to fish exposed to water guns in different environments (e.g., reduced shoreline interaction) or exposure to a larger array of water guns, or for use of water guns for purposes other than a barrier.     

Annual dynamics of the abundance of fish larvae and its relationship with hydrological variation in the Pearl River

We studied daily periodicity, taxonomic composition and annual variation of fish larvae abundance from a survey of the Zhaoqing section of the Pearl River over a 3-year period, 2006–2008, and collected 52 species, in eight families and 16 orders. The fish larval samples were numerically dominated by six species, Barbel Chub (Squaliobarbus curriculus) 33.1%, Black Guangdong Bream (Megalobrama hoffmanni) 20.6%, Yellowfin (Xenocypris argentea) 15.4%, Mud Carp (Cirrhina molitorella) 10%, Common Sawbelly (Hemiculter leucisculus) 4.3%, and Freshwater Bream (Parabramis pekinensis) 3.1%. These six species accounted for 86.5% of total numbers. Black Carp (Mylopharyngodon piceus), Grass Carp (Ctenopharyngodon idellus), Silver Carp (Hypophthalmichthys molitrix) and Bighead Carp (Aristichthys nobilis) are four of the most economically important fish species in China, and accounted for approximately 4.6% of the total. When compared with historical records from 1931, there are obvious changes in the fish larvae community. Chinese Sturgeon (Acipenser sinensis), Seasonal Shad (Macrura reevesi) and Long Spiky-head Carp (Luciobrama macrocephalus) populations have disappeared and there are also decreases in several other economically important fish populations. We observed a delay in spawning time of Black Carp, Grass Carp, Silver Carp and Bighead Carp, which may be the result of the hydrological regime change in the Pearl River. We used canonical correspondence analysis (CCA) and cross-covariance function (CCF) to analyze the relationship between fish larvae and environmental variables. Our results clearly show that discharge affects the majority of fish larvae, with the various species having different responses. Larval abundances of 15 species such as Black Carp, Grass Carp, Silver Carp, Bighead Carp, Mud Carp and Black Guangdong Bream are significantly and positively related to the discharge. Other species such as Chinese Noodlefish (Leucosoma chinensis) and Rhinogobius olivaceus are negatively related to the discharge. Abundances of larval Mosquitofish (Gambusia affinis), Common Carp (Cyprinus carpio) and Eleotris oxycephala were not related to the discharge. As most economic fish species are affected by discharge, we also conclude that changes of hydrological regime, mainly caused by river damming, will result in the decline of fisheries resources in the Pearl River. The findings of this study have important implications for our ability to model the responses of fish larvae to environmental flows for the purpose of river regulation.     

Trophic reorganization of native planktivorous fishes at different density extremes of bigheaded carps in the Illinois and Mississippi rivers,USA

The widespread introduction of non-native fishes has contributed to freshwater ecosystems being considered among the most altered ecosystems globally. Of particular concern are invasive planktivorous fishes (e.g., silver carp Hypophthalmichthys molitrix and bighead carp H. nobilis, collectively known as bigheaded carps) that have the potential to modify basal food web structure and compete for planktonic resources with native planktivores and young-of-year fishes. Bigheaded carps have proliferated throughout the Mississippi River basin, creating an outsized potential for resource competition with native fishes. Studies have showed niche overlap between bigheaded carps and native planktivores is generally high but that overlap varies among rivers. Importantly, niche overlap has not been assessed for density extremes of bigheaded carps within a river to determine whether trophic niches changed as a result of the invasion. The objectives of this study were to determine whether (1) silver and/or bighead carps share a similar isotopic niche with four native planktivores, and (2) that association varies ecologically (i.e., low- and high-densities of bigheaded carps) and spatially (i.e., between rivers). Our results generally show high trophic overlap among species, suggesting potential direct resource competition. Niche overlap was higher in study reaches with low densities of bigheaded carps compared to reaches with high densities, presumably due to intense resource competition and limiting of resources under high densities of bigheaded carps. Across density extremes, trophic reorganization by bigmouth buffalo (Ictiobus cyprinellus) was divergent from other native planktivores. Species-specific responses may be due to subtle differences in feeding strategies, degree of planktivory, food selectivity, and correlated food size distributions.

     

Straddling the divide: invasive aquatic species in Illinois and movement between the Great Lakes and Mississippi basins

The Laurentian Great Lakes and the Mississippi River are two of the largest freshwater ecosystems in North America, and each contains large numbers of non-native species. In 1900 the Great Lakes and Mississippi were permanently connected with the opening of the Chicago Sanitary and Ship Canal in the US state of Illinois. More recently, movement of trailered boats, bait, and other overland vectors have increased and further enabled movement of non-native aquatic species. To investigate the role of Illinois in continent-wide species spread we assembled a comprehensive database of recorded occurrences of aquatic non-native species in Illinois inland waters. For each species we determined vector, location, current stage in the invasion sequence (introduced or established), and ecological impacts. The arrival of non-native species has accelerated over time. Sixty species are now established, and a further 39 have been recorded. The Great Lakes have been a stronger source of species to Illinois and the Mississippi River basin than the reverse. Over the last two decades the most important vectors delivering non-native aquatic species have been unintentional release and shipping. Through a survey of Illinois aquatic ecologists we found that established species exhibit a continuous range of ecological impacts and that almost a third have high or very high ecological impacts. Local, national, and continental approaches will be required to mitigate the threat of further invasive species spreading into Illinois and between the Great Lakes and Mississippi basins.     

A mark-recapture population estimate for invasive silver carp (<Emphasis Type="Italic">Hypophthalmichthys molitrix</Emphasis>) in the La Grange Reach,Illinois River

Invasive silver carp (Hypophthalmichthys molitrix) populations have expanded greatly in the Upper Mississippi River System (UMRS) since their introduction in the early 1970s. We conducted a Chapman-modified, continuous Schnabel mark-recapture population and biomass estimate for silver carp (106–901 mm) in the La Grange reach, Illinois River during 2007–2008. We estimated a total of 328,192 (95% CI 231,226–484,474) silver carp (2,544 per river km 1,792–3,756) comprising 705 (95% CI; 496–1,040) metric tons of biomass (5.5 metric tons per river km 3.8–8.1). Long Term Resource Monitoring Program (LTRMP) data from the La Grange reach showed an exponential increase in silver carp catches since 1998, with an intrinsic rate of increase approaching 84%. In 2008, silver carp comprised about 51% of the total LTRMP annual fish collection. To our knowledge, this large river reach may contain the greatest ambient densities of wild silver carp in the world. Our findings provide a target for reduction efforts and also emphasize the importance of the La Grange reach as a source population for potential expansion of the species to the Laurentian Great Lakes.     

世界范围内“四大家鱼”入侵现状及其适应特性

原产中国的鲢(Hypophthalmichthys molitrix)、鳙(Aristichthys nobilis)、草鱼(Ctenopharyngodon idella)和青鱼(Mylopharyngodon piceus),即"四大家鱼",已分别被引入到世界上很多个国家和地区,在其中将近一半的地区成功入侵,远高于一般入侵生物的建群概率。这与其自身的高繁殖力、宽广的生理耐受性和食性,以及遗传结构多样性等特征有关,还与新栖息地环境因素密切相关。四大家鱼野外繁殖所需的具有一定流量、流速、足够长且通畅的河道,是其成功入侵的必备环境因素;气候因素也影响四大家鱼成功入侵的概率。此外,入侵地的饵料丰度以及与其他入侵生物的协同作用,也能促进四大家鱼在引入地建群之后的入侵速度和程度。     

Prey selectivity of common predators on Silver carp (<Emphasis Type="Italic">Hypophthalmichthys molitrix</Emphasis>): controlled laboratory experiments support field observations

Silver Carp Hypophthalmicthys molitrix (Valenciennes, 1844) are an invasive species in the Mississippi River Basin and their current role in this novel ecosystem is not fully understood. Juvenile Silver Carp can and do occur in great numbers after a successful spawn. These massive schools of small Silver Carp seem to be an obvious prey source for the common predators of the Mississippi River system. The level to which native piscivores are consuming this novel prey item is unclear. Therefore, the goal of this research was to assess the diets of native piscivores collected in Pool 26 and the Open River reach of the Mississippi River. Using diet contents and catch rates of small fishes, selection or avoidance could be determined for predator prey interactions. Then a controlled laboratory experiment was conducted to determine if common predators [White Bass Morone chrysops and Largemouth Bass Micropterus salmoides (Lacepede, 1802)] would select for or against this novel prey in the presence of two native prey fish [Gizzard Shad Dorosoma cepedianum (Lesueur, 1818) and Emerald Shiner Notropis atherinoides]. Understanding how predator-prey interactions occur in a controlled laboratory experiment may provide insight to trends observed in the field. The majority of native piscivores appeared to be avoiding Silver Carp in both reaches and selecting native prey fishes. The order in which prey fish were consumed by both predators showed significant avoidance of Silver Carp. It appears that the trends observed in the field were supported by our controlled laboratory experiment. The effectiveness of different native piscivores to consume Silver Carp may have impacts on future management decisions.     

ASIAN CARP EXPANSION IN THE MISSISSIPPI RIVER: FOCUSING ON THE LEADING EDGE OF THE INVASION FRONT

Asian carp are expanding their range throughout the Mississippi River; however, abundance is thought to be highest in reaches within close proximity to the Illinois River. In the Mississippi River, Lock and Dam 19(LD 19) at Keokuk, Iowa is the primary barrier to slow the expansion upstream. As Asian carp abundance increases below LD 19, it is important to investigate potential means of control(i.e., reduction through harvest and barriers) that will prevent complete invasion of the Mississippi River above LD 19. Silver Carp and Bighead Carp were collected below LD 19, a subsample were implanted with ultrasonic transmitters to evaluate passage through the lock chamber and the remainder were used to determine population dynamics at the leading edge of invasion. Although the dam portion of the structure poses a complete barrier to upstream expansion, we documented lock chamber passage demonstrating the lock chamber has the capability to provide passage upstream. Based on the results of the population assessment, in order to induce recruitment overfishing at this leading edge of invasion, Asian carp will need to be intensively harvested at 300 mm and larger. The combination of commercial fishing efforts and research investigating ways to prevent passage upstream must be employed.     

Aspects of Embryonic and Larval Development in Bighead Carp Hypophthalmichthys nobilis and Silver Carp Hypophthalmichthys molitrix

As bighead carp Hypophthalmichthys nobilis and silver carp H . molitrix (the bigheaded carps) are poised to enter the Laurentian Great Lakes and potentially damage the region’s economically important fishery, information on developmental rates and behaviors of carps is critical to assessing their ability to establish sustainable populations within the Great Lakes basin. In laboratory experiments, the embryonic and larval developmental rates, size, and behaviors of bigheaded carp were tracked at two temperature treatments, one “cold” and one “warm”. Developmental rates were computed using previously described stages of development and the cumulative thermal unit method. Both species have similar thermal requirements, with a minimum developmental temperature for embryonic stages of 12.1° C for silver carp and 12.9° C for bighead carp, and 13.3° C for silver carp larval stages and 13.4° C for bighead carp larval stages. Egg size differed among species and temperature treatments, as egg size was larger in bighead carp, and “warm" temperature treatments. The larvae started robust upwards vertical swimming immediately after hatching, interspersed with intervals of sinking. Vertical swimming tubes were used to measure water column distribution, and ascent and descent rates of vertically swimming fish. Water column distribution and ascent and descent rates changed with ontogeny. Water column distribution also showed some diel periodicity. Developmental rates, size, and behaviors contribute to the drift distance needed to fulfill the early life history requirements of bigheaded carps and can be used in conjunction with transport information to assess invasibility of a river.     

鲢鱼、鳙鱼、草鱼谷胱甘肽过氧化物酶cDNA的克隆及肝组织表达

利用RT-PCR技术分别从淡水食毒藻鱼类鲢鱼(Hypophthalmichthys molitrix)、鳙鱼(Aristichthys nobilis)及草食性鱼类草鱼(Ctenopharyngodon idella)肝组织扩增出谷胱甘肽过氧化物酶(GPX)cDNA核心序列。序列分析表明鲢鱼、鳙鱼、草鱼GPX的cDNA序列均为263bp,编码87个氨基酸。鲢鱼、鳙鱼、草鱼与斑马鱼(Danio rerio)(同属鲤科)、条石鲷(Oplegnathus fasciatus)、虹鳟(Oncorhynchus mykiss)(鲈形目)等鱼类GPX氨基酸序列同源性很高,为75%～93%;与人(Homo sapiens)、小鼠(Mus musculus)、大鼠(Rattus norvegicus)、猪(Sus scrofa)、牛(Bos taurus)等哺乳动物GPX氨基酸序列的同源性也较高,为76%～79%。以β-肌动蛋白为内参照,比较鲢鱼、鳙鱼、草鱼肝组织GPX cDNA的表达水平,鲢鱼、鳙鱼肝组织GPX的表达量远高于草鱼肝的GPX表达量,这与鲢鱼、鳙鱼大量摄入微囊藻毒素在鱼体内引发产生过量的脂过氧化物相适应。     

Swimming performance of adult bighead carp Hypophthalmichthys nobilis (Richardson, 1845) and silver carp H. molitrix (Valenciennes, 1844)

Although the movement of invasive bighead carp (Hypophthalmichthys nobilis) and silver carp (H. molitrix) in the Upper Mississippi River system is dependent on their ability to swim through its numerous lock‐and‐dams, the swimming performance of adults of these species is at present unknown. Using a large (2,935‐L) mobile swim tunnel, the swimming performance of adult bighead and adult silver carp was quantified at water velocities that challenged them to exhibit either prolonged and/or burst swimming (76–244 cm/s) with fatigue times of less than 10 min. Simple log‐linear models best described the relative swim speed to fatigue relationships for both species. Under these conditions, the swimming performances of adult bighead and silver carp were similar to several species of adult fishes native to the Mississippi River system, but relatively low (<3 total body lengths per second, TL/s) compared to previously studied juveniles and sub‐adult bigheaded carps (3–15 TL/s). The decline in endurance with water velocity was three times greater in bighead carp (slope = ?2.98) than in silver carp (slope = ?1.01) and the predictive ability of the bighead model was appreciably better than the silver carp model. The differences in adult swimming performance between the two species were coincident with behavioral differences (e.g. breaching in silver carp but not in bighead carp). The swimming performance data of adult bighead and silver carp can now be used to evaluate whether their passage through manmade river structures including the gates of lock‐and‐dams in the Upper Mississippi River might be reduced.     

Long-term changes in fish community structure in relation to the establishment of Asian carps in a large floodplain river

The Upper Mississippi River System, including the Illinois River, has been invaded by a number of nonnative species including silver carp Hypophthalmichthys molitirx and bighead carp H. nobilis, collectively referred to here as Asian carps. Silver carp densities in the Illinois River have increased dramatically and now represent some of the highest densities of wild silver carp anywhere in the world. Asian carps have the potential to alter existing ecosystems by consuming planktonic resources and therefore, could have the ability to alter existing fish communities as most fishes are dependent on planktonic resources during early development. However, identifying the relationship of fish community structure to the establishment of Asian carps has yet to be thoroughly investigated. Using long-term fish community data collected by the Upper Mississippi River Restoration’s Long Term Resource Monitoring element, we investigate changes in fish community structure pre- and post-establishment of Asian carps. Significant differences in the pre- and post-establishment communities were observed for the majority of gears and habitats. Species contributing to changes between establishment periods included most sportfish species and catostomids, which were less abundant post-establishment of Asian carps, while shortnose gar, grass carp, and emerald shiner were more abundant. While our analyses show Asian carps are likely contributing to major differences in fish community structure, future research and long-term monitoring should investigate the mechanisms and interactions responsible for community changes as well as identifying any potential concurrent or confounding factors such as changes in river hydrology or sedimentation.     

Persistence of DNA in Carcasses,Slime and Avian Feces May Affect Interpretation of Environmental DNA Data

The prevention of non-indigenous aquatic invasive species spreading into new areas is a goal of many resource managers. New techniques have been developed to survey for species that are difficult to capture with conventional gears that involve the detection of their DNA in water samples (eDNA). This technique is currently used to track the invasion of bigheaded carps (silver carp and bighead carp; Hypophthalmichthys molitrix and H. nobilis) in the Chicago Area Waterway System and Upper Mississippi River. In both systems DNA has been detected from silver carp without the capture of a live fish, which has led to some uncertainty about the source of the DNA. The potential contribution to eDNA by vectors and fomites has not been explored. Because barges move from areas with a high abundance of bigheaded carps to areas monitored for the potential presence of silver carp, we used juvenile silver carp to simulate the barge transport of dead bigheaded carp carcasses, slime residue, and predator feces to determine the potential of these sources to supply DNA to uninhabited waters where it could be detected and misinterpreted as indicative of the presence of live bigheaded carp. Our results indicate that all three vectors are feasible sources of detectable eDNA for at least one month after their deposition. This suggests that current monitoring programs must consider alternative vectors of DNA in the environment and consider alternative strategies to minimize the detection of DNA not directly released from live bigheaded carps.