Part 1- Research empathy. Look up definitions and descriptions of empathy. The link below is an example and may be a good start for you. https://www.forbes.com/sites/vanessaloder/2016/02/04/what-successful-companies-are-doing-right-empathy/#4b659e9438ff (Links to an external site.)Links to an external site. Part 2- Review your scenario. You will be provided a picture and a few words about the picture. Spend some time thinking about the depicted/described situation. Who is the person? What is this person thinking? What are they feeling? What are their needs? What are their desires? Part 3- Write. 3 pages 12 pt Times new roman font, double spaced. What is your definition of empathy? (1 paragraph or less) The story of your scenario. The remaining space should be used to write a story about the person. Please write this using first person as if you are that person. In the story, you can fill in biographical details and tell about a situation or activity. You don’t have a lot of space, so you want to focus your story. Be creative.
1.1 Overview of Soft Sediment Communities Delicate dregs are the most widely recognized marine environment on earth (Wilson, 1990). The natural surroundings incorporate sandy shorelines, estuaries, mudflats and salt swamps. The people group comprise of living beings which live on, or in, the base of a water body. There are for the most part four kinds of delicate residue networks which can be ordered by their size. They are microbenthos (<0.063 mm), meiobenthos (0.063 - 1.0 mm), macrobenthos (>1.0 mm) and megabenthos (> 10.0 mm). This examination is centered around macrofauna, otherwise called macrobenthos. They are spineless creatures that live on or in residue, or appended to hard substrates. The regular delicate silt networks that can be found in intertidal zones are Annelida, Crustacea and Mollusca (Munari and Mistri, 2008). Estuarine and beach front biological communities comprise of essential segments of macrofauna (Borja et al., 2000). They associate essential producersand natural issue sources, for example, phytoplankton and debris separated from being financially, biological, and recreationally importantfish and shellfish (Rönnbäck et al., 2007; Bremner, 2008).Soft dregs networks give numerous environment benefits that assistance to keep up great water and residue quality (Rönnbäck et al., 2007). Channel feeders, for example, bivalves expel particles from the water segment, which may result in upgraded water clearness (MacIsaac, 1996). Given the significance of light in shallow water estuarine biological communities, channel sustaining may enhance shallow water environment for submerged oceanic plants and benthic microalgae. The debasement of a few poisons is improved by silt blending (bioturbation) of the infaunal macrobenthos because of incitement ofmicrobial forms. The upgraded coupling of key nitrogen changes within the sight of benthic macrofauna can prompt the creation of nitrogen gas, which getaways to the climate, along these lines lessening nitrogen stacking in the biological community. Macrobenthos have been utilized for quite a long time asindicators of natural statusand inclines in estuaries and waterfront territories on the grounds that infauna are generally inactive life forms and they react to nearby ecological effects (Pearson and Rosenberg, 1978; Borja et al., 2000; Wildsmith et al., 2009, 2011). They cover an extensive variety of physiological resiliences, living positions, kind of encouraging and trophic collaborations (Elliott et al., 2002). Macrobenthic gatherings react moderately rapidly to natural surroundings unsettling influences (Borja et al., 2000). They are essential segments of aquaticfood networks (Rönnbäck et al., 2007)and they influence transport and cycling of supplements and toxicants. What's more, there are information on their examples of variety, their reactions to various types of unsettling influence are known and they indicate comparable reactions at various dimensions of ordered goals (Warwick, 1988). They frame an essential part of the estuarine sustenance web, supporting business and non-business species. They thusly speak to a perfect collection to quantify natural change and will keep on being utilized to speak to a critical organic part of delicate silt. Seeing how extraordinary segments of benthos react to changes in properties of silt is accordingly basic in deciding how much, assuming any, repetition there is in this framework and how much effects on the dregs themselves are endured by the fauna. From this investigation unmistakably such analyses require replication at numerous scales and over various natural surroundings before any broad reactions will be distinguished. By knowing the significance of delicate dregs networks, the wellbeing and nature of an environment can be resolved without utilizing any unsafe substance pointers. 1.2 Objectives The goals of this task are: To research the plenitude and appropriation of delicate silt networks in Tanjung Bungah, Pulau Pinang. To relate the natural factors with delicate residue networks dissemination and bounty in Penang intertidal zone. Section 2 Writing REVIEW 2.1 The Ecology of Soft Sediment Communities Macrofauna make up an extensive part of the sustenance web in estuarine biological communities, associating essential makers to top makers and assuming a vital job in framework elements (Herman et al., 1999; Platell et al., 2006). Base macrobenthic networks incorporate an extraordinary assortment of life forms and for the most part an expansive number of animal groups and they are greatly confounded (Meire et al., 2005). In marine macrobenthic living beings, polychaetes is a standout amongst the most huge gatherings and may make up the greater part of the life forms in delicate base living spaces. They are regularly the prevalent macrobenthic taxon in these residue regarding numbers, both numerically of species and plenitude (Wildsmith et al., 2009, 2011). Polychaetes could thus be great markers of species wealth and array models in macrobenthic gatherings (Fauchald and Jumars, 1979). Some polychaete species were incredibly deft and reacted rapidly to ecological aggravations (Norkko et al., 2006; Wildsmith et al., 2011). 2.2 The Importance of Soft Sediment Communities Spineless creatures comprise some portion of marine biological systems and assume vital jobs to help the capacity and solidness of the evolved ways of life and environments whereupon different creatures depend (Snelgrove, 1998). They direct populaces of different life forms (plant and creature) through predation, parasitism and herbivory, and help keep up water quality by separating a lot of water amid bolstering (Ponder et al., 2002). Spineless creatures are straightforwardly associated with biological system adjustment, shoreline security, vitality and supplement exchange and arrangement of natural surroundings (Ponder et al., 2002). They additionally help in atmosphere adjustment and re-mineralization and assume a vital job in the cycling of supplements, breakdown of plant matter and different garbage and give natural surroundings to different species (Ponder et al., 2002). 2.2.1 Environmental pointer Individuals from the macrofauna network fill in as valuable organic pointers of natural change and key components of numerous marine and estuarine checking programs, because of their stationary ways of life and diminished reactions to ecological changes (Tweedley et al., 2012). Subsequently, the spatial dispersion of macrofauna in respect to ecological components is basic to the comprehension of estuarine nature (Herman et al., 1999). Polychaetes are important marine living beings which can endure tainting on the grounds that they inhabit the interface of water-dregs (Wildsmith et al., 2009, 2011). This layer is both naturally receptive and artificially dynamic (Rhoads and Young, 1970). Polychaetes involve all marine and estuarine dregs (Fauchald, 1977) and are frequently the dominating constituent of the macrobenthic networks both regarding people and number of species (Hutchings, 1998; Morin, 1999; Mills, 1969; Rhoads and Young, 1970; Van Hoey et al., 2004; Ward and Hutchings, 1996; Warwick, 1988). Polychaetes complete an imperative job in biological system procedures of macrofauna collections, for example, reusing, toxin digestion and in the interment of natural issue (Hutchings, 1998). 2.3 Factors Affecting Soft Sediment Communities The plenitude and dissemination of delicate dregs networks were affected by both biotic and abiotic factors. Biotic factors, for example, rivalry and predation (Rhoads and Young, 1970) while abiotic considers, for example, variety saltiness, turbidity, dregs grain measure, add up to natural carbon, and metal pollution, influence estuarine macrofauna (Kinne, 1966; Remane and Schlieper, 1971; McLusky and Elliot, 2004). 2.3.1 Salinity The impact of saltiness specifically is a critical factor in estuarine macrofaunal decent variety. By and large, ponders have detailed a positive connection among's biodiversity and saltiness (Holland et al., 1987; Jorcin, 1999; Ysebaert and Herman, 2002; Gimenez et al., 2005). Since variety in saltiness varies as per tidal developments and freshwater contributions to estuaries, the appropriation of macrofauna and the macrobenthic network can contrast among dry and stormy seasons. 2.3.2 Sediment Grain Size In estuaries, saltiness and dregs grain measure have been observed to be the most essential natural factors controlling the decent variety and distributional examples of macrofauna (Absalo, 1991; Yoo and Hong, 1996; McLusky and Elliot, 2004). Hong and Yoo (1996) recommended that the molecule size and aggravation of the residue may have been the most critical elements controlling the macrobenthic network. Delicate dregs networks are strange in the rate at which the idea of the physical condition can change (Wilson, 1990). Most sedimentary particles are littler than the occupant creatures, infauna (Wilson, 1990). The exercises of the infauna can significantly change the idea of the earth after some time times of hours or days (Wilson, 1990). For example, tunneling infauna may build the porosity of the dregs (Rhoads, 1974). 2.3.3 Total natural carbon Populace elements of benthic suspension feeders, store feeders and subsurface feeders are known to react distinctively as per nature of sources of info, microscopic fish or potentially natural sustenance matter (Austen et al., 1991; Beukema et al., 2002). The last two gatherings are less influenced since they use a vast pool of natural issue in the residue, which is continually being reused. In tropical locale, Wolanski et al. (1992) speculated that in mangrove bog or brook framework, the dissemination forms are profoundly confused prompting novel residue transport routines that could thusly represent the science and science of the beneficiary water. Bounty and Composition of Soft Sediment Communities The investigation of delicate silt networks was broad in certain calm nations particularly Australia while different nations in the tropics are inadequate in their information. Further investigations presently can't seem to be led in tropical coastlines du>GET ANSWER