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Conservation of Biodiversity in the Areas Fished by SIODFA Operators

The term ‘biodiversity’ is one that is used without hesitation by a wide range of professions – biologists through to environmental lawyers and administrators.  It seems that the number of people who are in favour of biodiversity is directly and inversely proportion to those who can define what it means.  There is even an International Convention on Biodiversity!

In the simplest of terms, biological diversity is the variety of life and its processes; and it includes the variety of living organisms, the genetic differences among them, and the communities and ecosystems in which they occur.  But, it is relevant that Noss (1990) notes ""Biodiversity is not simply the number of genes, species, ecosystems, or any other group of things in a defined area...A definition of biodiversity that is altogether simple, comprehensive, and fully operational (i.e. responsive to real- life management and regulatory questions) is unlikely to be found. More useful than a definition, perhaps, would be a characterization of biodiversity that identifies the major components at several levels of organization.

Less pessimistic attempts to define this term do convey the intent of the general concept.  A search of the web provides: "Biological diversity is the variety and variability among living organisms and the ecological complexes in which they occur.  Diversity can be defined as the number of different items and their relative frequency.  Such items can be organized at levels ranging from complete ecosystems to the molecular basis of heredity. Thus, ‘diversity’ can encompass ecosystems, species, genes, and their relative abundance.

To the ‘scientist’ the meaning of ‘natural’ diversity can include: (a) the number of different native species and individuals in a habitat or geographical area; (b) the variety of different habitats within an area; (c) the variety of interactions that occur between different species in a habitat; and (d) the range of genetic variation among individuals within a species."

In US Congressional legislation, "biological diversity means the full range of variety and variability within and among living organisms and the ecological complexes in which they occur, and encompasses ecosystem or community diversity, species diversity, and genetic diversity."

  • Genetic diversityis the combination of different genes found within a population of a single species, and the pattern of variation found within different populations of the same species.  Genetic variation within and between populations of species affects their physical characteristics, viability, productivity, resilience to stress, and adaptability to change.

  • Species diversityis the variety and abundance of different types of organisms which inhabit an area.

  • Ecosystem diversityencompasses the variety of habitats that occur within a region, or the mosaic of patches found within a landscape.

Associationsof species, or biological communities, are a further element of biological diversity. Communities form the biotic parts of ecosystems. The variety of species in an ecosystem is a function of its structural and functional characteristics and the diversity of its ecological processes, and the physical environment.

From single seafloor features to sea basins and gyres, indeed to the marine environment, biological diversity includes variety in the kinds of ecosystems, their patterns, and linkages across oceans, seas, water masses and parts of these components.

Ecologists note that almost any hierarchy of the parts and processes of biological diversity is artificial and usually does not avoid some human context.  But it does provide a focus for this concept that is infinitely varied and dynamic and that must be addressed in light of the full spectrum of human needs and aspirations.

Ecosystem diversity is harder to measure than species or genetic diversity because the "boundaries" of communities - associations of species - and ecosystems are elusive. Nevertheless, as long as a consistent set of criteria is used to define communities and ecosystems, their numbers and distribution should be measureable.

Ecosystem components are the inhabiting species in all their variety and richness. Many different species, gene-pool abundance, and unique populations are what most people think of when they hear the term "biodiversity". But there is much more to consider.
Ecosystem structure refers to the physical patterns of life forms from the individual physiognomy of a cold-water coral to the bacteria found in seafloor sediments.

Ecosystem functions are hard to see in action and harder to determine, but require attention if definitions of vulnerable marine ecosystems are to be anything other than a shibboleth.

Composition, structure, and function define the biodiversity of an area. Composition has to do with the identity and variety of elements in a collection, and includes species lists and measures of species diversity and genetic diversity. Structure is the physical organization or pattern of a system, from habitat complexity as measured within communities to the pattern of patches and other elements at a landscape scale. Function involves ecological and evolutionary processes, including gene flow, disturbances, and nutrient cycling."

What does this all this mean to SIODFA or indeed to an RFMO that has the responsibility to’conserve’ the fisheries in a convention area, where conservation includes the concept of rersponsible or rational management?

In some areas, certain species may be rare.  This may be because the area is at the edges of the natural range of the species.  In this case, encountering or not encountering a species that is rare in an area may simply reflect the fluctuating environmental conditions that determine the limits of the distribution of the species.  Species rarity may be because the species has never been abundant and naturally occurs at low levels in the area.  This is a situation to be dealt with carefully.  Or, it may be that a species may have become rare due to anthropogenic affects - fishing, pollution or some other form of habitat change.  Again, this is a situation for concern.

The objective of fishing by SIODFA vessels is to remove fish from the ocean.  Thus, like almost all forms of human endeavour, their activity modifies the environment.  Indeed the nearly 100 million tonnes of fish that are taken from the seas each year must be one of the world’s greatest environmental impacts.  What does this harvesting do?

An ecologist wishing to answer this question might insist that first one should define the ecosystem that is being affected – impacted in current jargon.  First, is their evidence that fishes such as orange roughy or alfonsino have a functional relation with the benthos of, e.g. seamounts?  Orange roughy may be found in areas of abundant benthos and equally they may be found in areas of bare basaltic seabed.  While nothing can be ruled out, no one has yet posited that orange roughy (or alfonsino, etc.), while physically present in the same environment, are an integral part of the functioning of benthic ecosystems. 

Indeed, in terms of deep-sea fisheries, the target fish occur in association with some seamounts, some knolls, some areas of seafloor ridges, etc.  But there is no indication that there is an obligatory association if the targeted species with any form of benthic fauna.  Rather, these seafloor features apparently provide requirements useful to the biological needs of the targeted fish just as they provide attributes that are favourable to the biological requirements of coldwater corals that grow on them.  Both groups of animals appear to be able to live in this habitat independently of each other.  If such independence is the case (as it appears to be), this simplifies management as the challenge reduces to managing the fish resources for whatever management objectives are specified while protecting the the associated benthic fauna.  Both objectives must be addressed

 

In this sense of the meaning of ‘biodiversity’ (deepsea) fishing affects the abundance of target and bycatch species, e.g. alfonsino, orange roughy, armourhead, cardinal fishes and several others.  Usually little bycatch is taken.  In the case of targeted fishes, the appropriate and more-or-less universal manner of managing ‘biodiversity’ is through fisheries management plans.  These usually are expanded to address ‘dependent’ and ‘associated’ species that would be taken as bycatch.

In the cases of discarded fishes, the main species of interest are the deep-sea sharks.  The table below lists the deep-sea sharks we believe exist in the Southern Indian Ocean, however, their taxonomy is in urgent need of revision: indeed a reliable key to assist data collection officers on SIODFA vessels to more consistently and accurately identify species is urgently required.  Perhaps because of their generally unappealing appearance that would make them poor candidates to feature in calls for funding or donations, this group of interesting fishes are usually ignored by others than SIODFA operators though the CSIRO in Australia does have a programme directed at two species that are believed to be particularly rare .  These are for the gulper sharks, Harrisson’s dogfish (Centrophorus harrissoni) and Southern Dogfish (Centrophorus zeehaani).  Another shark of particular interest is the Southern  sleeper shark (Somniosus antarcticus), not least because of the experience of repeated captures of the same individuals.

Provisional List of Elasmobranchs Believed to Occur in the Southern Indian Ocean

Log Book Name

Fishbase Name

Code

Family

Provisional Species

Ghost shark

 

OGH

Callorhinchidae

Callorhinchus milii

South dogfish

Little gulper shark

CUS

Centrophoridae

Centrophorus uyato

Brier shark

Birdbeak dogfish

BSH

Centrophoridae

Deania calcea

Long snout dogfish

Longsnout dogfish

LSD

Centrophoridae

Deania quadrispinosum

 

Portuguese dogfish

 

Dalatiidae

Centroscymnus coelolepis

Gold dogfish

Longnose velvet dogfish

GDG

Dalatiidae

Centroscymnus crepidater

Owston’s dogfish

Roughskin dogfish

ODG

Dalatiidae

Centroscymnus owstoni

 

Plunket shark

 

Dalatiidae

Centroscymnus  plunketi

Seal shark

Kitefin shark

SSH

Dalatiidae

Dalatias licha

 

Shorttail lanternshark

 

Dalatiidae

Etmopterus brachyurus

Lantern shark

Blackbelly lanternshark

SLS

Dalatiidae

Etmopterus Lucifer

 

Great lanternshark

 

Dalatiidae

Etmopterus princeps

 

 

 

 

 

 

Porbeagle

 

Lamnidae

Lamna nasus

 

Sixgill sawshark

 

Pristiophoridae

Pliotrema warren

 

Broadnose catshark

 

Scyliorhinidae

Apristurus investigatoris

 

Balloon shark

 

Scyliorhinidae

Cephaloscyllium sufflans

 

African spotted catshark

 

Scyliorhinidae

Holohalaelurus punctatus

 

Izak catshark

 

Scyliorhinidae

Holohalaelurus regani

Cat shark

McMillan's cat shark

CAT

Scyliorhinidae

Parmaturus macmillani

Dogfish

Shortnose spurdog

CCR

Squalidae

Squalus megalops

Sleeper shark

Sleeper shark

 

Somniosidae

Somniosus antarcticus

Shovel shark

guitarfish / wedgefish

 

Rhinobatidae

Rhinobatos holcorhynchus

Shovel shark

guitarfish / wedgefish

SHV

Rhinobatidae

Rhynchobatus australiae

 

Triangular leg skate

 

Rajidae

Cruriraja triangularis

 

Yellow spotted skate

 

Rajidae

Leucoraja wallacei

 

SIODFA operators have been running catch recording and documentation programmes for several years of the deep-sea sharks.  This endeavour has been constrained by the inability to access funds to pay for deepwater shark biologists to undertaken the required fisheries population biological studies and SIODFA is actively attempting to contact partners for an appropriate programme of research.

The other component of the catch that is more commonly taken to represent ’biodiveristy’ are the species comprising the benthic fauna.  Of particular importance are the cold water corals: because of their slow growth and erect form, such corals, on contact with the foot rope of a trawl may take extended periods to recover, if they ever do.  Sponges may be another faunal group of concern because of the vulnerability to trawl gear.

In some areas the bycatch of such corals has been a problem and SIODFA is committed to minimizing the probability of such events even if their occurrence is occasional or rare.  Fortunately, in the Southern Indian Ocean for a number of reasons, this form of bycatch is rare, though it may happen.  Much of the fishing effort of the SIODFA fleet is by mid-water trawling and fleet’s experience is that during this type of fishing there is essentially never bycatch of sedentary benthos.  When the fleet is targeting orange roughy during the winter spawn fishery the fishing method involves putting the trawl foot rope,  but not the trawl doors, on the seafloor.  This contact by the 20 m foot rope occurs from two to twenty minutes.  It is during this time that benthos may be retained by the trawl.

An analysis of coral bycatch by the four deepwater SIODFA trawlers showed that average coral bycatch was 111.1 grams for each bottom tow and 28.2 grams a tow when averaged over both bottom and mid-water, for vessels fishing in the study area for the data set that was examined.  These results were based on the bycatch records of 678 bottom tows and 2002 mid-water trawls.  No distinction was between coral rubble and living coral in the trawl bycatch.  Coral bycatch was recorded from up to 10.7% of the estimated number of sea floor features that were fished.  Depending on the vessel, period of the data record, and the seafloor feature, the percentage of tows with coral bycatch ranged from <0.01% to 2.27%.  Based on the fishing period for which coral bycatch data were available (a total of 706 days), the estimated annual bycatch of cold-water corals per vessel is 39.0 kg/vessel. 

However, large episodic catches of coral do occur.  The associated figure shows a 70 kg catch of what was deemed to be ‘evidence of a vulnerable marine ecosystem’ by one SIODFA vessel that required the skipper to move 5 nm from the position where he hauled his gear.

Much other bycatch of coral is less impressive.  The figures below show other examples of ‘coral’ bycatch that occur from time-to-time.

Some finds are surprising: the following photo shows cold water coral colonizing a piece of trawl warp that had been discarded.

SIODFA Symbol of a Blue Marlin
SIODFA Mission Statement

SIODFA

Represents the interests of deep-sea fishing operators of the southern Indian Ocean by promoting responsible management of the fisheries of the SIO and the conservation of deep-sea biodiversity.