The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of non-indigenous/non-endemic species – number and abundance of NIMPIS-listed pests". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL PROCESS FOR EXPERT ASSESSMENT There are over 250 introduced marine plants and animals established in Australian waters (see marine pests.gov.au). Some have hitch-hiked to Australian waters on the hulls of vessels of all types from yachts to commercial ships, or in their ballast water. Others have been introduced to support local aquaculture, with the aquarium industry another vector. Species that are listed on the National Introduced Marine Pest Information System are those known to have been introduced to Australia, or considered to be a risk of future introduction. NIMPIS currently contains detailed information on over 100 invasive marine species. DATA STREAM(S) USED IN EXPERT ASSESSMENT This assessment is based on peer-review papers and reports as well as information on the marine pests website: see http://www.marinepests.gov.au. 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus Comparability: Grade and trend are comparable to the 2011 assessment • 2011 • Assessment grade: Good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT The 2016 assessment is similar to the 2011 assessment.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of quality of species and groups – Epipelagic fish species". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL SPECIES/COMMUNITY FOR EXPERT ASSESSMENT Australia’s coastal small pelagic fishes (<50 cm) include species such as Australian Sardines, Maray, Blue and Sandy Sprats, Australian anchovy, scads, Jack Mackerel, hardyheads, silversides, Blue mackerel, Australian Herring and Redbait. Tropical and temperate assemblages are comprised of different species and there are also regional differences in species composition (Hobday et al. 2009). This assessment refers only to temperate species in the East, South-east and South-west regions. Blue Mackerel, Common Jack Mackerel, Redbait and Australian Sardine (off eastern Australia only) are targeted by the Commonwealth Small Pelagic Fishery. The SPF is managed in two Zones: East spanning half of the East and eastern South-east regions and the West spanning the South west and western half of South-east). State fisheries primarily target Australian Sardine but may also take Australian Anchovy, Blue Mackerel, sprats and Maray. DATA STREAM(S) USED IN EXPERT ASSESSMENT The assessment is based on data and analyses published in the peer review literature, stock assessment reports and minutes of the meetings of the Small Pelagic Fishery Scientific Panel. Details of specific data sets used to generate the assessment have not been provided. 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Good Assessment trend: Stable Confidence grade: Adequate high quality evidence and high level of consensus Confidence trend: Adequate high quality evidence and high level of consensus Comparability: Grade and trend are comparable to the 2011 assessment • 2011 • Assessment grade: Good Assessment trend: Stable Confidence grade: Adequate high quality evidence and high level of consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT Additional fishery catch data, more recent stock assessments.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of quality of habitats and communities – Seamounts". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF HABITAT/COMMUNITY FOR EXPERT ASSESSMENT Seamounts (undersea mountains, often with volcanic origin) provide ‘oasis’ habitats of hard substratum and are widely considered to represent sites of elevated biomass and productivity in the deep ocean. Their habitats can support dense aggregations of corals and associated high biodiversity; these represent vulnerable marine ecosystems (VME) (e.g. UNGA 2006; Clark et al 2011). The geological definition of a seamount (elevation of >1000 m) has no relevance to biodiversity valuation because smaller features are frequently found to support high, if not the highest, biodiversity. An ecological definition (e.g. Pitcher et al. 2007) is recommended. Australia’s marine realm encompasses many seamounts; the best known are the Tasmanian seamounts and the Tasmantid seamount chain. Additional seamounts have been discovered and mapped on the Lord Howe Rise and the Norfolk Ridge, as well as on Australia’s southern margin in the GAB. Seamount communities to ~1500 m depth in the south-east and south-west regions are associated with biogenic habitats formed mostly by the stony coral Solenosmilia variabilis (Koslow et al 2000; Thresher et al. 2014). Its matrix of dead and life coral, built up to a layer of at least 1.6 m thickness in places, forms a habitat for other corals, urchins, brittle- and snakestars and crustaceans (Thresher et al. 2014). Communities and habitats on deeper reaches of seamounts (>1500 m) are less well studied; they are usually less diverse and sparser, although areas of extraordinary high biomass have been observed in the south-east region (Thresher et al. 2014). The seamounts in the Tasmantid chain are mapped and well used by various commercial fisheries, but their epifaunal communities remain poorly documented (Williams et al. 2012). DATA STREAM(S) USED IN EXPERT ASSESSMENT This assessment is based on data derived from Marine National Facility Surveys described in MarLIN (http://www.marine.csiro.au/marlin/search.html) and accessible through the CSIRO Data trawler (http://www.cmar.csiro.au/data/trawler/). Links to specific data sets are provided in the "On-line resources" section of this record. • Voyage of Discovery north-west (SS05/2007) • Voyage of Discovery south-west (SS07/2005 & SS10/2005) • Tasmanian seamounts surveys (SS01/2000, SS04/2006 & SS02/2007, SS01/2008 & TT01/2008) • Habitat Mapping (SS01/2000, SS04/2004) • Habitat and population assessment of giant crabs (2003 - 2005) • NORFANZ survey of Lord Howe Rise and Norfolk Ridge (TAN0308 - NORFANZ) 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Very good-Poor Assessment trend: Stable- Improving Confidence grade: Adequate high quality evidence and high level of consensus Confidence trend: Adequate high quality evidence and high level of consensus Comparability: Grade and trend are somewhat comparable to the 2011 assessment • 2011 • Assessment grade: Very good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT There is substantial information on the impact of trawling on seamounts in the South-East Marine Region available.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of quality of species and groups – seabirds". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF TAXONOMIC GROUP FOR EXPERT ASSESSMENT There are presently 57 species of seabirds known to breed in and around Australia and the external territories of Cocos (Keeling) and Christmas Island, Lord Howe and Norfolk Islands, Ashmore and Cartier Islands, and the Coral Sea islands. These 57 species are comprised of penguins (1 species), albatrosses (1 species), petrels, shearwaters and storm-petrels (19 species), boobies, tropicbirds, frigatebirds, cormorants and pelican (16 species) and gulls, tern, and noddies (20 species). Another 130 species of seabirds have been recorded in Australia, either as non-breeding or vagrant. Shorebirds are not considered here, nor are issues associated with nesting or onshore breeding colonies as these are assessed under the Coasts chapter. Species breeding on subantarctic islands and the Antarctic continent are assessed under the Antarctic chapter. DATA STREAM(S) USED IN EXPERT ASSESSMENT The assessment was based on data and analyses published in the peer reviewed literature and agency reports. Details on the specific data products used in this assessment have not been provided. 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Good Assessment trend: Unclear Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus Comparability: Grade and trend are somewhat comparable to the 2011 assessment • 2011 • Assessment grade: Good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT Unclear how the 2011 assessment was carried out and on what data. There is very little data on trends in populations available and so the trend cannot be regarded as stable but rather unclear.

The Marine chapter of the 2021 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "State and Trend of species redistributions". A PDF of the full Expert Assessment, including figures and tables (where provided) is downloadable in the "On-line Resources" section of this record as "EXPERT ASSESSMENT 2021 - Species Redistributions" DESCRIPTION OF SPECIES/HABITAT/COMMUNITY/PROCESS FOR EXPERT ASSESSMENT A systematic review suggests that since 2003, at least 198 Australian marine species have undergone long-term shifts in their geographic distributions. These redistributions are strongly associated with ocean warming. Indeed, 87.3% of shifts (173 species) align with expectations under warming trends i.e., these shifts are polewards in direction. Extreme climate events such as El Niño and marine heatwave events have also facilitated the contraction of warmer range limits and extension of cooler poleward range limits of species in Australia. DATA STREAM(S) USED IN EXPERT ASSESSMENT Literature search spanning all peer-reviewed scientific literature pertaining to marine species redistributions in Australia (Gervais et al., In Review) 2021 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2021 • Assessment grade: Poor Assessment trend: Deteriorating Confidence grade: Adequate high-quality evidence or high-level of consensus Confidence trend: Adequate high-quality evidence or high-level of consensus Comparability: Not Previously Assessed CHANGES SINCE 2016 SOE ASSESSMENT not previously assessed

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of quality of species and groups - inner shelf reef fish species". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL SPECIES/COMMUNITY FOR EXPERT ASSESSMENT Bony and cartilaginous fish assemblages found on coastal rocky and coral reefs <25 m depth, around the Australian continent. This includes all species (most not exploited). DATA STREAM(S) USED IN EXPERT ASSESSMENT Reef Life Survey visual census data were used for the current status assessment, with extensive spatial coverage of sites around the continent. Temporal trend information came from a combination of RLS, LTTRMP and AIMS long-term GBR monitoring datasets at 16 particular locations (MPA locations include the broader region and sites inside and outside sanctuary zones): NSW: Batemans Marine Park, Jervis Bay Marine Park, Sydney, Lord Howe Island, Port Stephens VIC: Beware Reef, Port Phillip Heads SA: Encounter Bay (Fleurieu Peninsula) WA: Rottnest Island, Jurien Marine Park, Ningaloo Marine Park QLD: Capricorn-Bunker, Southern GBR, Central GBR, Northern GBR TAS: Maria Island 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Poor Assessment trend: Deteriorating Confidence grade: Adequate high quality evidence and high level of consensus Confidence trend: Adequate high quality evidence and high level of consensus Comparability: Grade and trend are somewhat comparable to the 2011 assessment • 2011 • Assessment grade: Poor Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT Unclear what the 2011 assessment was based on.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of ecological processes – trophic structures and relationships". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL PROCESS FOR EXPERT ASSESSMENT For this assessment, food web structure and function as defined by diet and modelling studies (which synthesis much of the available information) have been used to evaluate the status and trends for trophic structures and relationships. The status and outlook for the structure of Australian marine ecosystems is highly variable. Food webs are naturally dynamic, through time and space (e.g. Griffiths et al. 2009), and human pressure on them has varied around Australia over the past two centuries, altering trophic structures to differing degrees (Dell et al. 2013, GBRMPA 2014). Food webs studies have primarily focused on coastal and shelf waters (e.g. Salini et al 1998, Bulman et al. 2001, DofWWA 2009), with much less coverage of deep water food webs. Diet studies have only occurred intermittently and few studies have been subsequently repeated (e.g. recent resampling of fish diets on the shelf of SE Australia; CSIRO unpublished). Consequently, understanding the true magnitude of inter-annual variation in diets is low and there is little capacity to be sure of dietary changes through time. Modelling studies (Fulton et al. 2005, Klaer 2005) suggest there has been trophic restructuring of food webs in south-eastern Australia over the last century, particularly as a result of the intensification of commercial fisheries up to the 1990s. The reduction in fishing pressure, particularly over the last 5-10 years (Flood et al. 2014, Patterson et al. 2015) will likely, eventually, allow the recovery of trophic structures. However, a complete recovery is unlikely given the multitude of on-going pressures (e.g. remaining fishing pressure, both recreational and commercial, shipping, coastal habitat modification, pollution, etc.) and because some highly depleted species (e.g. eastern gemfish) have failed to recover from past overexploitation; which itself may be related to shifts in trophic connections with predators and prey (TSSC 2009). In addition, climate change is reshaping south eastern ecosystems, with shifts in species ranges (Sunday et al. 2015) and the realisation of new trophic interactions (e.g. shifts in octopus diets; Briceno et al. 2015), as omnivorous species appear to shift more rapidly than carnivores (Sunday et al. 2015). Eastern Australian ecosystems, including the Great Barrier Reef are highly modified (Butler and Jernakoff 1999, GBRMPA 2014). Amongst the most obviously shifted systems are around population centres and in the southern Great Barrier Reef (GBRMPA 2014). As elsewhere, fishing pressure has eased over the past 5 years, but other pressures (e.g. from increasing development) have increased (AIMS 2014). Overall trophic structures likely remain highly modified, both by past and present removal of predatory species and shifts in abundance of basal species, due to eutrophication or habitat removal (GBRMPA 2014, Fulton and Gorton 2014). The ecosystems of northern, western, southwestern and southern Australia see less direct, and spatially more variable, pressure than those in the east and south east. Over the past 3 decades, fishing pressure in the region has significantly declined, and has continued to do so (though at a reduced rate) over the past 5 years (Prince et al. 2008, Patterson et al. 2014, Fletcher and Santoro 2015). Development of other sectors (e.g. shipping) has grown, but largely concentrated on specific locations (AIMS

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "Pressures on the marine environment associated with toxins, pesticides and herbicides". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF THE PRESSURE The group typically regarded as pollutants encompasses a large array of compounds and is generally divided into chemical compounds and metals. Estimates of the number of chemicals produced anthropogenically range as high as 100,000, however assessments of the toxicity and bioaccumulative nature of these are limited. Most research has only included a few classes of compounds, notably the halogenated hydrocarbons, a limited number of metals and polyaromatic and non-aromatic hydrocarbons. Most pollutants identified in marine animals are incorporated into tissues via dietary intake with many accumulating through the food web. Consequently, animals feeding at high trophic levels tend to have higher tissue concentrations than those feeding at lower trophic levels. Various pollutants have been reported to be associated with deleterious effects on the immune, endocrine and nervous systems of marine animals, resulting in disruption to growth, development, sexual differentiation and resistance to disease. However, direct associations between contaminants and these effects are few, and most studies lack substantive evidence of sublethal effects due to numerous confounding factors, both physiological and environmental in nature. This therefore limits quantification of the direct and indirect pressures pollutants may be exerting on the marine environment. DATA STREAM(S) USED IN EXPERT ASSESSMENT Published papers and reports. Assessment has been conducted by literature review. 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Low impact Assessment trend: Unclear Confidence grade: Limited evidence or limited consensus Confidence trend: Evidence and consensus too low to make an assessment Comparability: Grade and trend are somewhat comparable to the 2011 assessment • 2011 • Assessment grade: Very good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus CHANGES SINCE 2011 SOE ASSESSMENT Toxins, pesticides, herbicides was assessed under state and trends of physical and chemical processes rather than pressures.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of quality of species and groups – sea snakes". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL PROCESS FOR EXPERT ASSESSMENT Assessing the status of sea snakes is a priority based on evidence of significant declines in some populations (e.g., Guinea 2007, 2013, Lukoschek et al. 2007, 2013). Australia has approximately 32 sea snake species, more than half of global diversity, including 13 endemic species. Sea snakes occur in a variety of shallow-water marine habitats in northern Australia, including estuaries, reefs, soft-sediment habitats, and seagrass meadows. Two endemic species are listed as Critically Endangered under the EPBC Act and IUCN Red List, a further two endemics listed as Endangered and Near Threatened by IUCN have not been assess under the EPBC Act. DATA STREAM(S) USED IN EXPERT ASSESSMENT • Data primarily collected from an expert panel of sea snake researchers and marine resource managers during an IUCN Sea Snake Specialist Group Red List workshop in February 2009. • Updated status of sea snake populations from coastal WA and off-shore Timor Sea Reefs obtained from reports and publications by Michael Guinea, Vimoksalehi Lukoschek, Blanche D’Anastasi and Kate Sanders 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] Status and trends within the Australian EEZ are largely unknown but likely to vary between species and bioregions. Species have almost disappeared from Ashmore Reef, Timor Sea, the reasons for which are unknown. CHANGES SINCE 2011 SOE ASSESSMENT Largely agrees with 2011 SOE assessment with the addition of the declines reported from the NW Shelf.

The Marine chapter of the 2016 State of the Environment (SoE) report incorporates multiple expert templates developed from streams of marine data. This metadata record describes the Expert Assessment "The state and trends of ecological processes – secondary production (zooplankton)". The full Expert Assessment, including figures and tables (where provided), is attached to this record. Where available, the Data Stream(s) used to generate this Expert Assessment are accessible through the "On-line Resources" section of this record. DESCRIPTION OF ECOLOGICAL PROCESS FOR EXPERT ASSESSMENT Secondary production in the ocean is the generation of biomass by zooplankton – the primary consumers of phytoplankton. The most common zooplankton, the copepods, are the most abundant animals on Earth, even outnumbering insects. Zooplankton are important components of the biological pump, shunting carbon from the surface to the deep ocean through sinking of faeces or dead carcasses. The recruitment of fish stocks and the carrying capacity of marine ecosystems – the mass of fish, squid and shellfish, marine mammals, seabirds and sea turtles) – is related to secondary production. Productivity hotspots (e.g. Eden and Bonney upwelling zones) have high densities of zooplankton, sustaining fish and whales alike. DATA STREAM(S) USED IN EXPERT ASSESSMENT IMOS plankton data – both from the National Reference Stations and the Australian Continuous Plankton Recorder survey. 2016 SOE ASSESSMENT SUMMARY [see attached Expert Assessment for full details] • 2016 • Assessment grade: Very good Assessment trend: Stable Confidence grade: Limited evidence or limited consensus Confidence trend: Limited evidence or limited consensus Comparability: Not previously assessed • 2011 • (not previously assessed) CHANGES SINCE 2011 SOE ASSESSMENT Not previously assessed.