Abstract
Invasive plant species (IPS) are the second biggest threat to biodiversity after habitat loss. Since the spatial extent of IPS is essential for managing the invaded ecosystem, the current study aims at identifying and mapping the aggressive IPS of Acacia salicina and Acacia saligna, to understand better the key factors influencing their distribution in the coastal plain of Israel. This goal was achieved by integrating airborne-derived hyperspectral imaging and multispectral earth observation for creating species distribution maps. Hyperspectral data, in conjunction with high spatial resolution species distribution maps, were used to train the multispectral images at the species level. We incorporated a series of statistical models to classify the IPS location and to recognize their distribution and density. We took advantage of the phenological flowering stages of Acacia trees, as obtained by the multispectral images, for the support vector machine classification procedure. The classification yielded an overall Kappa coefficient accuracy of 0.89. We studied the effect of various environmental and human factors on IPS density by using a random forest machine learning model, to understand the mechanisms underlying successful invasions, and to assess where IPS have a higher likelihood of occurring. This algorithm revealed that the high density of Acacia most closely related to elevation, temperature pattern, and distances from rivers, settlements, and roads. Our results demonstrate how the integration of remote-sensing data with different data sources can assist in determining IPS proliferation and provide detailed geographic information for conservation and management efforts to prevent their future spread.
Highlights
Invasive plant species (IPS) cause ecological damage as well as substantial economic costs worldwide [1]
We focus on two highly invasive species in Israel, Acacia salicina Lindl. and Acacia saligna (Labill.) H.L.Wendl., which spread over large areas in the coastal plain of Israel, creating dense clusters of trees with prominent yellow flowers that bloom in late winter to early spring (March to April) (Figure 1)
Note that the Acacia classification was related to the leaf spectral signal, and not to the flowering signal in the hyperspectral image
Summary
Invasive plant species (IPS) cause ecological damage as well as substantial economic costs worldwide [1]. Predicting the future spread of the invading species requires identifying the pattern of IPS in the landscape, the mechanisms underlying successful invasion processes, and their response to environmental and human factors [12]. IS is essential for monitoring invasion rates at various stages, multispectral satellite sensors offer advantages in identifying and monitoring IPS They provide larger coverage areas, higher revisit times, are easier processing, and have more available archived images compared to the narrow band hyperspectral sensors. Judicious sensor selection is desirable for useful, repeated, and reliable IPS identification and monitoring, and required for integrating data from multispectral and hyperspectral imagery This approach could provide on-the-ground management guidelines [30]. StuAdy. sSapliegcnieas and A. salicina, of the mimosa (Mimosaceae) family and legume (Leguminosae) order, sprAea. sdalaigsnsaharnudbsA.osralsiicningal,eo-sfttehme mmeimd otsreae(sM, iwmhoiscahcecaaen) fraemacilhy uanpdtoleg9ummein(Lheegiugmhtin[o3s8a]e. ) Torhdeeyr,were sptrreaandspaosrstehdrufbrsomor Asiungstlrea-slitaemtommedantryeecso, uwnhtriciehscaarnourenadchthuepwtoor9ldm, ininclhuediginhgt [I3ta8l]y. ,TNheeywwZeeraeland, traPnosrptuogrtaeld, Sforoumth AAfursictraa,lSiapatoin,maanndythceouUnStr[i3e9s].arBoouthndsptehceiews woreldre, ainlscolubdrionugghIttatlyo,IsNraeewl aZseeaalarlnyda, s the Pobretugginanl,iSnoguothf tAhferi2c0at,hScpeanintu, rayndbythtehUe SBr[i3t9is].hBcootlhosnpisetcsieasnwdetrheeafilsrostbJreowugishht tsoetItslreareslfaosreaaffrloyreassttahteion of beegxipnnoisnegd olafnthdes,2s0othilcceonntuseryrvbaytiothne, aBnridtistoh sctoalboinliizstessahnidftitnhge sfairnsdt sJedwuinshess.eTtthleersimfoprraefsfsoirveestraetpiorondoufctive exsptoresnedgtlhanodf sA, csoaciliacoisnsreerlavtaetdiotno, athnedirtoabstilaibtyilitzoersehaicfhtinmgastaunrditsydinunfoesu.rTyheeairms apnredsstoivperroedpurocdeuthctoivuesands stroefnvgitahbolef Aseceadcsiathisartefloartemdatodtehnesire aubnilditeyrsttoorreyauchndmeartuearicthy tirnefeo[u4r0y].eaSrins caendfirtsot pbreoindgucpelathnoteudsainndIssraeli ofcvoiaasbtlael sdeuendesst,hAatcafocriamsaprdeeandseraupniddleyr,satotraynuanndneuraelagcrhotwreteh [r4a0t]e. eSsinticmeafitresdt batei3n%g p[3l8a]n.ted in Israeli coastal dunes, Acacia spread rapidly, at an annual growth rate estimated at 3% [38]
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