Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement Appendix 5.1.3 Invasive Species Draft Methodology Statement e. us er h ot oses eodn lfy.or any ectionw npeurr rpequir o n s e n t ofF coro ipnysripght o C Invasive Species Draft Methodology Statement July 2016 (picture above taken from page 43 of Guidelines on the Management of Noxious Weeds and Non-Native Invasive Plant Species on National Roads, National Roads Authority, 2010) EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement 1.0 Introduction: This methodology statement has been produced by OES Consulting to provide guidance and a stated methodology for the identification, control and eradication of invasive species within and surrounding the development boundary of the proposed development at Newmarket Co-Operatives Creameries Waste Water treatment Plant (WWTP), underground pipeline and discharge point on the River Dalua at the location of Allan’s Bridge. Invasive species surveys were undertaken in late 2015 to assess the development site for the presence of invasive species and the results of these surveys are provided below in Section 1.1. Although invasive species were not identified at the proposed WWTP, pipeline route or discharge point, a request was made by Cork County Council in the letter dated 14th June 2016 (Point 11l) for further information in relation to the following: Clarify the extent of survey works which has been completed for alien invasive species along the pipeline route, and the findings of any such surveys, identifying locations (if any) of any infestations should be provided. A draft method statement prescribing the methods (including timing of treatment relative to timing of conset.ruction works) to be used to us manage any such infestations should be submitted in theer event that Japanese Knotweed h oaterenrc asacuntormyirnd eog ntw htthi etoahrf t i nbinwvevoasartsk sipvisv erdea ao csp ltineiesonect sigcepause irudcesialeean stt cihivsee eid asteopsn retepctthiiafroeienew dn pstedur cri omrp eroafiqsbi eulnisio rneeogndnv ldf yag.oo r bs aftin hvtyy he oetIen sr voppauerostceipvi.eeo Ms s.Se epdteh wcoioderssk tsIor ew blailel nb dues. ecTdirmi tsiichnaoglu toldof For inysripght o 1A.n1 inInvavasisviev e sSppeeccieiess Aasssseessssm m e e o nn n s et t n t owf caops included within the scope of the ecological assessment completed as partC of the Environmental Impact Statement (EIS) in late 2015. The surveys recorded no problematic invasive alien species at the site of the proposed WWTP or along and in the vicinity of the proposed pipeline route. No plant species of conservation concern are likely to occur in proximity to the proposed development. A potential impact associated with the construction of the proposed development, in the absence of suitable controls, is the introduction or spread of invasive species such as Japanese knotweed (Fallopia japonica), and Indian balsam (Impatiens grandiflora) (known to occur in proximity of proposed discharge point). The field surveys confirmed the absence of Japanese knotweed (Fallopia japonica) from the study area which included the WWTP, pipeline route and discharge point on the River Dalua. This finding implies that there is no risk of spread of this species and possible introduction can be prevented by use of appropriate controls. Should such species become established then it could have a detrimental effect on native flora and fauna within habitats downstream of the proposed development. No problematic invasive alien species, including Indian Balsam were recorded during the field survey at the site of the proposed WWTP or along and in the vicinity of the proposed EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement pipeline route, however it is known to occur along the riverbanks of both the Rampart Stream and the River Dalua (IRD Duhallow Life Project). It is possible that this species occurs at or close-by the discharge point, however due to high water levels at the time of the survey this could not be confirmed. To prevent the spread and introduction of invasive species such as Japanese knotweed and Indian Balsam and noxious weeds appropriate method statements listing management and mitigation measures will be adopted which are listed below. The method statements are informed by the following guidance which is included within the annexes to this report:  Guidelines on the Management of Noxious Weeds and Non-Native Invasive Plant Species on National Roads, National Roads Authority, 2010 (Annex I).  Best Practice Management Guidelines, Japanaese Knotweed (Fallopia japonica), Invasive species Ireland, 2015 (Annex II) .  Himalayan Balsam, Invasive Species Ireland, date not provided – accessible online at http://invasivespeciesireland.com (Annex III). The mitigation measures listed below will be included within the Construction Environment Management Plan provided in EIS Volume II Appendix 2.2.e . us er oth Ssuercvteioyn o 5f .i1n.v1a5 soivfe t hspee EcIiSe sp r(otaprogseetsin ign ian dpvaarnticcoeuse ls aoeodnr lff y .oIrnc adony inasntr u(ocrt ioHnim, aila ybaanse) lBinaels acmon, fiwrmhaictho riys kcnleorwk on ft ow oocrkcs u(Er caoloWng) awsasigtenrecdo utors eths ein p throeectji esontwc unpeturdr .rp eTyqh uiarisr esuar)v weyill wbeill uinnfodremrt aak reisnk bayss tehsesm Eceonlto tgoi cbael uwnhdicehrt wakille bne ainnfodr mtheed dbeyv tehleo pdmraeftn mtF oero itnfyhsr ipogahtd no sataptpermoperniatst ep rocvoidnsetdru bcetiolonw m . Iat wnaillg beem imenpto rptalannt tdheavte laonpym beantn kasried en oatr erea-sc oal ol o n n o i sgn se e nd t w o f abcotype Irn dcioaunr sBeas lstahmat fomllaoyw indgist urerbinestda tbeym ethnet. Fporollopwos eudp checks will need to be undertaCken annually and control measures undertaken should the plant be recorded. In the case of Indian Balsam, mechanical controls are recommended such as hand pulling or mowing and cutting. It is important that this is done prior to flowering in June and regular follow ups will be required to deal with any seedlings. EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement 2.0 Japanese Knotweed This method statement is specifically based on information provided in the National Roads Authority (NRA) and Invasive Species Ireland (ISI) documents provided in Annexes I and II in relation to identification, control and eradication of Japanaese Knotweed. The methods listed below will be utilised both prior to, during and post construction of the proposed development by Newmarket Co-Operative Creameries Ltd. 2.1 Introduction Japanese knotweed (Fallopia japonica) is a member of the Polygonaceae (docks and rhubarb family), native to Japan and northern China. Only female plants have been recorded in Ireland and while seeds are sometimes produced, these are hybrid and rarely survive. It is rhizomatous (produces underground stems) with distinctive branched hollow, bamboo-like canes that can grow to over 3 metres in height. Dispersal occurs through rhizome fragments being transported in soil by humans or to a lesser extent, through passive mechanical means such as in floodwaters. Dispersal is also achieved through vegetative reproduction from plant fragments. The plant typically occurs along roadsides, riverbanks and waste ground in Ireland where it forms dense, e. monotypic stands. er us h ot 2 .2 Impacts oses eodn lfy.or any Jinacpluadniengse bknlooctwkinege ds icgahutlisnees sa orann groea odfs p,e crtidoonawb npemlurer rpemaqugisr ed uteo top aitsv ipnrgo liaficn da nsdtr udcetnusree sg, roewrotshio hna boift rdiviseprlbaacnekms eannt do f fnloaotidve dheafbeintactes asntrduFo cr siptnysuripegrhect osie, sd. amage to archaeological sites, loss and Jpalapnatsn.e Jsaep kannoetswee kendo thwaese vdig f o o r r oo m n su e s ns t l t oyfa cilonlp tvhaicdkeedts ntahatutr aelx chlaubdieta atsll aonthde ro vuet gceotmatpioente, ssh naadtiinvge C the area below. Native plants can rarely compete with this invasive species and local plant biodiversity is reduced. Rivers, hedgerows, roadsides and railways form important wildlife corridors for native plants and animals to migrate and disperse along, and large infestations of Japanese knotweed can block these routes for wildlife. Japanese knotweed can also seriously damage buildings, hard surfaces and infrastructure, but usually only where there are existing weaknesses. Once established underneath or around the built environment, it can be particularly hard to control, growing through concrete and tarmac and other hardstandings if any cracks exist. When Japanese knotweed colonises riverbanks, it can damage flood defence structures and reduce the capacity of channels to carry flood water. The Global Invasive Species Programme categorises Japanese knotweed as one of the worlds 100 worst invasive alien species. In light of the economic and environmental damage associated with this species, the risk assessment process undertaken as part of the Invasive Species Ireland project identified Japanese knotweed as one of the highest risk (most unwanted) non-native invasive species in Ireland. EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement 2.3 Identification Japanese knotweed is a robust, herbaceous perennial plant with hollow, bamboo-like stems. It forms yellow cream flowers in late June or August and its leaves are approximately the size of a human hand. Its hollow bamboo-like stems are green with red spots during summer, which turn brown during winter. It forms red side shoots off the main stem and its leaves are arranged in a zig-zag pattern. The plant is frost-sensitive and dies back in winter though the stems remain standing. It grows from 120–300cm in height with leaves 7–12cm long with a square-cut base, while Fallopia sachalinensis grows from 150–300cm in height and has cordate (i.e. notched or indented at the base) leaves up to 30cm in length. A hybrid between the two species occurs which has increased vigour and produces even larger leaves. The root system is extremely extensive (extending 15 to 20m in length) and acts as a storage organ allowing for rapid growth in spring. The plant requires high light levels and the burst of growth in spring prevents other plants from outshading it. A pre-construction baseline confirmatory survey of invasive species (targeting in particular Indian (or Himilayan) Balsam and Japanese Knotweed will be undertaken by the Ecological clerk of works (EcoW) assigned to the project throughout the development study area including the WWTP, underground pipeline anusde. discharge location at Allan’s Bridge. Indian (Himalyan) is known to occur along wahetre rcourses in the study area. This ot sauprvperoyp wriailtl ei ncfoonrmstr uac trioisnk maassneassgmeemnet ntto p labne wuoshensi cdeodn hlefy.o rrw taaniyl lk been inafnodrm tehde b dy ethveesloep dmraefnt mt eotfh oadn s2t.a4t e m e Cnotsn trol and Eradication ectionw npeurr rpequir For inysripght o Ttdhhiseec shduaervrvgeeeylo sp pcomoinmet npatlt e aAterleldaa ni,n ’is nl aBctrleiud d2 g 0i eno 1n sg. e5 nH t ct oohf ocweonp efloivrmceare, tdiino n ntohs etor afu cnthleiekse oWlyf WJeavTpPea,n nut enthdsaee tkr gJnarooptuwanendee sdpe itp hKernolionutegw haeoenuddt was identified, the control andC eradication measures listed below will be utilised. Japanese knotweed is highly invasive and extremely difficult to eradicate completely. The approach to control will depend on several factors including the scale of the infestation, the topography and terrain of the site, the proximity of watercourses or other sensitive receptors (such as protected flora), the funds available, etc. Current control measures are limited to a combination of physical and chemical means and chemical means alone. Japanese knotweed should only be excavated where construction necessitates it. Currently there are three means by which Japanese knotweed can be eradicated from sites:  Long-term treatment with herbicides.  Excavation and disposal at a licensed landfill site.  Excavation, deep burial and/or bunding on site prior to treatment with herbicide. 2.5 Physical and Chemical Control – Combined Treatment Methods A combination of physical and chemical treatments may be more effective than chemical treatment alone in controlling Japanese knotweed. The Environment Agency indicates EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement that combining digging and spraying is effective in reducing the time needed for chemical control. By digging and breaking up the rhizome, the aim is to stimulate leaf production leaving the plant more vulnerable to treatment with a plant protection product. The Japanese knotweed canes shall be cut using a cutter, hook or scythe and carefully set aside on a suitable membrane surface until they have dried and are certain to be dead. A wheeled excavator may then be used to scrape the top 25cm of topsoil, containing the surface crown and rhizomes, into a pile. The exposed ground is then cultivated to a depth of at least 50cm and the piled material is then re-spread over the cultivated area. This process will stimulate the rhizome to produce a higher density of stems, leaving the plant more susceptible to treatment with a plant protection product. Another combined treatment method is the cut and inject technique, involving the cutting of the mature Japanese knotweed stems shortly before senescence (senescence refers to the biological processes of a living organism approaching an advanced age, which typically occurs with the first frosts in late October or November for the Japanese knotweed). Stem cuts shall be approximately 200 mm above the base of cane, preferably approximately 40mm above a node. The cut cane shall be carefully set aside and disposed of appropriately. A measured dose of plant protection product is then applied into the hollow stem cavities. In subsequent years, the stems may not be sufficiently large to inject. In such cases, spot application of plant pusreo.tection products containing glyphosate will be required. her ot 2 We.s6hse e n n t i ea xlE cxatchvaaatvt iaogtnioo aonnd ad n scidtoe nC toahyningtmaieiennnmet /edpnisrtpae/ctcoDiostniw iasncpeuprlre rpcoeosqso eusis raneaodnt llrfr ye.oo r al nmye metphloodyes da ret od ereemduecde n etchees sarisrky ito isf c onta mfneionntac utiinsnigngg oo tftfrh aaecnrk dae rdseig avnesi nhogi fc t la he o rn es se e i nans t i o tsftF e cohoro .iep fnMy sr iipnignehft feaoessstutaeretdios ane;rm e apslo; yed may include:  pressure washing vehiclCes exiting infested areas in designated wash-down areas; and,  ensuring adequate supervision. 2.7 Excavation At least two weeks prior to excavation, the Japanese knotweed shall be treated with a non-persistent herbicide (certain plant protection products containing glyphosate are non-persistent). The herbicide must not be capable of causing groundwater contamination. Under no circumstances shall a persistent herbicide be used when excavation and containment/disposal techniques are being considered, as this would potentially cause the material to be classified as a ‘hazardous waste’. 2.8 Excavation and ‘Deep Burial’ ‘Deep burial’ involves burying the material on-site to a depth of at least 5m. Once buried, the Japanese knotweed material shall then be covered with a root barrier membrane layer before being in-filled to 5m deep with inert fill or topsoil. EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement 2.9 Bunding A bund is a shallow area of Japanese knotweed contaminated soil, typically 0.5m deep. This method is used where conditions do not allow for burial and is usually only suitable for large sites, as even small infestations with limited above ground growth, can be very big. The bund method is used when it is not possible to treat Japanese knotweed in the area where it was originally located by moving it to an area within the same site that is not in use now or in the future. Bunds shall be located at least 10m away from site boundaries to prevent spread. The bund can be raised, on top of the ground or placed within an excavation. The material within the bund is treated as often as is necessary to prevent growth and spread. Bunds shall use a root barrier membrane if being constructed in an area free of Japanese knotweed. 2.10 Excavation and Disposal to Landfill If Japanese knotweed cannot be dealt with effectively on site, it must be disposed of at a suitably licensed waste management site. Disposal to landfill should be considered a last resort due to the expensive nature of disposal. Great care is required to ensure that no material is lost when the excavated material is being transported. The material must be disposed at licensed waste facility where: e. er us h  the facility have been informed in advaotnce of the nature of the waste  mthae tfearciailli;t y is licensed to accept thoisse s meodn lfay.or taenyr ial; and 2.11 Ch etmhei cfaacl iClitoy nist rporel pared toFor ianysrcipgechctt ieoonw pnpeutrr rptehquier material. Tbhreea ckus rrdeonwt rne cino tmhem esonidl reedla ct i vh e e o l mn y s e niq tc ouaf cilco pfkolyr .J aHpoawneevseer ,k gnloytpwheoesadt ec ohnatrso tlh ise g dlyispahdovsaanteta wghei cohf C being potentially damaging to non-target plants. Great care is necessary in applying this herbicide. Plant protection products containing glyphosate should be applied in late September or early October. However, it is further advised that the plants be treated early in the growing season (May) to stunt the growth of the plant, consequently reducing the amount of viable above-ground material and the height of the stand. For small infestations, plant protection products containing 2,4-D Amine can be used. 2,4-D Amine has the advantage of being selective and specific to broadleaved plants. However, in general, it has a greater persistency when compared to Glyphosate. Plant protection products containing 2,4-D Amine should be applied in May with a follow up treatment in late September or early October. 2.12 Japanese Knotweed on Adjacent Sites It is particularly important to consider Japanese knotweed in the wider environment around a particular site. If Japanese knotweed is growing on an adjacent site, or upstream of a site on a riverbank, then no matter how good on-site Japanese knotweed control is, it may recolonise recently cleared sites. Thus, an understanding of the wider context is necessary to determine if eradication or control efforts are likely to be successful. In some situations, treatment of all Japanese knotweed on site might not be appropriate due to the likelihood of re-colonisation, but infested areas within a construction footprint must be EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement dealt with appropriately. Work in partnership with neighbouring landowners to tackle Japanese knotweed. e. us er h ot oses eodn lfy.or any For inysripgehctt ioonw npeurr rpequir o n s e n t of cop C EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement 3.0 Indian/Himalayan Balsam This method statement is specifically based on information provided in the National Roads Authority (NRA) and Invasive Species Ireland (ISI) documents provided in Annexes I and III in relation to identification, control and eradication of Indian (Himalayan) Balsam. The methods listed below will be utilised both prior to, during and post construction of the proposed development by Newmarket Co-Operative Creameries Ltd. No problematic invasive alien species, including Indian Balsam were recorded during the field survey in late 2015 at the site of the proposed WWTP or along and in the vicinity of the proposed pipeline route, however it is known to occur along the riverbanks of both the Rampart Stream and the River Dalua (IRD Duhallow Life Project). It is possible that this species occurs at or close-by the discharge point. To address the potential discovery of Indian Balsalm within the development boundary, the following method statement will be adhered to. 3.1 Introduction Himalayan balsam is a member of the busy Lizzie family (Be.alsaminacea) and is native to us the Himalaya region of Asia. It was introduced as a gaerr den plant in the mid-1800’s and h qitthsu opituerso asliwnficdift sls yoe bef sedec epadrmos dedu uecestt itoaonb t.lh isIenh enitdus tharioleomnntge p wroaoanrtg esoerwi,ol s taaesh yneoedns ldf y.oaH r caninmoyd lodta in lta eoymtahspe, eri trd ahataumsr epas d.p Ualanpcftoeersdt ub ntyoa m tdeeelyav,ne dslou opef t o our warmer climate and nutrient rich soectiilosn w inpteu rrh rpeaqusir thrived here and became highly invasive. 3 .2 Impacts For inysripght o Ievte ffirsey c awtnive eall lniyn n otuhuaetlc cpoalmannpotep tfyoe srom fs uirnirprg o a u rCd io na n e s dn e n n ti ns w oef gco o upohpedrrliabgnsh dta .ns Itnda ntghdreas saasueptspu. rmIot nxisi,m ttohaleete rpalylna 1tn tomsf desihterae bd ateac lalk ,nw ldeh aedvroeine gist the banks bare of vegetation and vulnerable to erosion, leading to knock on effects such as the increased siltation of fish spawning grounds as well as bank instability and therefore increased flood risk. The following provides a summary of the key impacts of the species:  Excludes native species.  Leaves river banks exposed to erosion in winter.  Subsequent potential sedimentation impact on fish spawning areas.  Attracts pollinating insects away from native species.  Increased risk of flooding due to siltation of water courses and bank instability.  Main transmission route via water courses. 3.3 dentification Himalayan balsam is an erect and glabrous (hairless) plant with a brittle, reddish stem, which can grow up to 2m in length. The broadly lanceolate and toothed leaves are 10– 20cm in length and arranged oppositely or in whorls of three. The plant produces an abundance of white to pink/purple, flowers in racemes, which are followed by club- EPA Export 14-10-2016:02:13:34 Newmarket Co-Operative Creameries Ltd. Appendix 5.1.3 Environmental Impact Statement shaped seedpods. When ripe, the pods open explosively propelling the small black seeds up to seven meters from the mother plant, which gives it a considerable edge in colonizing new ground. In addition, the seeds can remain viable for up to 18 months and are readily dispersed in water. The key features of this plant include:  Grows up to 3 metres in height.  Large purplish to pale pink flowers in June – October.  Hanging explosive seed pods that can throw seeds over 6 metres  Hexagonal hollow stems that are reddish in colour.  Dark green leaves, lance-shaped leaves with serrated edges. 3.4 Control and Eradication As mentioned above, no problematic invasive alien species, including Indian Balsam were recorded during the field survey in late 2015 at the site of the proposed WWTP or along and in the vicinity of the proposed pipeline route, however it is known to occur along the riverbanks of both the Rampart Stream and the River Dalua (IRD Duhallow Life Project). It is possible that this species occurs at or close-by the discharge point. To address the potential e. us discovery of Indian Balsam within the development ebr oundary, the following control h mCoenthtroodl ms weiall sbuere us tfiolsire Hdim. alayan balsam shouldos eas ieomdn lfy.o rt aony potrevent flowering and are therefore u 3 .n4d.1e r t a k ePnh ybseicfaolr eC tohnetr cool mmencemFor einynsripgtehc tto ioofnw npfeulrro rpewquierring in June. Pnisl oactn ucttsu ttco ea anbr elbieloerw ac sut htt,he mis lpoorwwonem soot rtn e s o ts r d iog m n e s r ee m, n t a oieft t cedowpr iblsl eareecdskp ptroor ougdtr.ou Rcuentigodun ll eainvr eamln boye wrfeion-rgger owflwoilwlt hce. orUinnngtlreo isnls tJthhueen epp.ll aaDnnott C provided the frequency of mowing is regular enough to prevent sprouting and flower formation. Repeat annually until complete control is attained. As plants are very shallow rooted, they can also be easily pulled by hand. Hand pulling will require a follow up pull in August due to new seeds sprouting. Vegetative material can be disposed of by composting unless seeds are present, in which case the material should be disposed of at a licensed landfill or burnt. 3.4.2 Biological Control Grazing by cattle and sheep is effective from April throughout the growing season in some situations. It should be continued until no new growth occurs. However, grazing on riverbank habitats can have negative impacts such as poaching of river banks and the removal of other native vegetation which may act as a buffer zone. 3.4.3 Chemical Control Chemical control is achieved with the use of glyphosate or 2,4-D amine, which shall be applied during active growth in late spring but late enough to ensure that germinating seedlings have grown sufficiently to be covered by the spray. Glyphosate is systemic and EPA Export 14-10-2016:02:13:34