Plum Island Erosion - Plum Island Erosion

Plum Island Erosion (14)

Tuesday, 05 March 2013 20:55

The Results of the 2010 River Dredging & Beach Nourishment Project

Written by Mike Morris

Much faith, effort & money was wagered on a favorable outcome for the Dredging & Beach Nourishment project that commenced in September of 2010. Though it was regarded as a short term solution to Plum Island's erosion woes, most didn't think the term of relief would be so brief. The River Jetty Breach should have been repaired first, and then the beach nourished with the dredge spoils. With the breach still passing sand to Plum Island Point & the Merrimack River, these dredged materials quickly eroded away. Think of it like trying to fill a bucket of water to the rim - but there is a hole along the side. No matter how much water is added (& in the case of Plum Island, it is sand) one can never keep the bucket full. In the effort to stave erosion, the cart has been placed before the horse. Though Beach nourishment activities can buy homeowners time, they are temporary, very short term, expensive solutions.

"Results of the 2010 River Dredging & Beach Nourishment Project"

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Tuesday, 05 March 2013 20:54

Hard Structures Seawalls & Geotubes

Written by Mike Morris

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Tuesday, 05 March 2013 20:41

Beach Scraping

Written by Mike Morris

Photo: Christin Walth

Beach Scraping... is illegal for a reason. Though it's been done at Plum Island & other beaches, Scientists have observed the practice to be ineffective, causing more harm than good. If you understand how the shore works, you can concur with their conclusions:

When waves are large, sand is drawn from the beach to create a long sloping ramp that dissipates wave energy. Without it, waves would hit the beach at full force creating massive amounts of erosion. During times of low wave energy, this shallow area of sand is pushed back up on the shore, oftentimes downstream from where it originated, eventually washing up in front of someone else's house.

The process described above also interlocks & packs sand particles creating a fairly stable substrate (about a solid as sand can be). When you walk on it at low tide, you don't sink in.

So how does beach scraping affect this process? When we beach scrape we do 3 things that make our situation worse:

First, we take a stable surface & make it unstable by disrupting the interlocked sand grains (about 2 - 3 feet down using heavy machinery) from the near shore shallows all the way to the unsorted pile we create at the barrier dune. Wind & especially water quickly act to move these loose particles away.
Secondly, through excavation & disruption, we make the once shallow waters near shore deeper, inviting the ocean & its wave energy closer to the very dune we seek to protect. Think back to when you were a child building sand castles. If you dug down in front of your fortress & created a deeper hole, when water finally came in, your walls came tumbling down.
Thirdly, when we scrape sand we effectively steal it from someone else's home downstream, as well as the public beach.

Scraped sand is an unstable heap of loose sand grains that are easily eroded by wind & water

Scraped sand is not layered its an unsorted heap

Water & Wind Naturally Lock Sand Grains in packed & interlocked Layers

Layerd Dune 116

Some may argue that 10 inches of scraped sand doesn't matter. But remember, it's being replaced by 10 inches of water. Inviting 10 inches of water closer to your home before a storm is not a sound strategy. Consider that a gallon jug of water weighs 7 lbs., & coincidently is about 10 inches tall. Imagine how many of these gallon jugs fit in the scraped area between Plum Island center & the Columbia way groin. Now imagine playing catch with a gallon jug of water. Move that mass at 10-15 mph in the form of a wave & you can begin to visualize the forces involved.

Finally, because Plum Island has a narrower overall shore (due to the combination of a failed River Jetty & rising sea) there is a new storm high water mark that encroaches upon existing homes. A wall of sand built seaward of that high-water mark will quickly be scoured away when storm waves seek their level.

Scraped Sands Lie Ahead of the New Storm Wave High Water Mark the Day before Sandy Arrived. Photo: Mike Morris

2 Scraped Sand ahead of storm high water mark 017

Sandy's High Tide Photo: Mike Morris

3 Sandy Arrives 044

4 Scraped Area After Sandy 076

Photo: Mike Morris

While beach Scraper's hailed their efforts as a success, Sandy reached the same high water mark in front of the beach scraped homes as she did along homes to the side of the scraped area. However, a noticeable lowering of the beach took place in front of the scraped homes.

While one scraping event probably won't do a lot of harm, and can prevent minor inundations, its widespread use will destabilize the shore giving rise to more problems. Plum Island has been, after all, adulterated with misunderstood interventions. We shouldn't want to employ more of them.

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Tuesday, 05 March 2013 13:10

Short Term Erosion Control Measures

Written by Mike Morris

Plum Island has employed short term erosion control measures that include beach nourishment, beach scraping & the use of sea walls in the form of geo-tubes or coir sandbags. Let’s look at these practices, their caveats & how well they performed.

"The results of the 2010 River Dredging & Beach Nourishment Project"

"Beach Scraping"

"Hard Structures Sea Walls & Geotubes"

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Tuesday, 05 March 2013 12:55

About the Author

Written by Mike Morris

About the Author

by Frank Cataldo

"When you're curious, you find lots of interesting things to do."~ Walt Disney

When Mike Morris was just a boy his dad instilled in him a curiosity of the world around him. His dad not only taught him about the natural world, its creatures & its cycles, but also the aspects of things mechanical. This curiosity grew into a diversity of interests and a career that has touched the fields of Biomedical Science, Marine Biology, Healthcare Management, BMW race cars, Alternative Automotive Energy Technologies and more relative to Plum Island, Oceanography, Climate Change & Sea Level Rise.

Mike's interest in Oceanography is rooted in the sport of surfing, a lifelong passion since the age of 11. He was described by author Andrea Fox in a North Shore Magazine feature article on Plum Island Erosion, as a "Wave Enthusiast". The sport has lured Mike to surf spots around the globe. He's surfed breaks not only here in New England, but also on the Outer Banks of North Carolina, Puerto Rico, the British Virgin Islands, Hawaii and also the Pacific coasts of Mexico & Costa Rica.

Planning a successful surf vacation, whether it is a few days in New England or a week somewhere more exotic, requires successful surf forecasting. To this end Mike studied Physics, Meteorology and Oceanography while pursuing a degree in Biology and a MS in Public Health & Business from the University of Massachusetts, Amherst. With the advent of the internet & the declassification of Military wave forecasting models in 1996, the task of accurately forecasting surf became much easier and more accurate. Today, wave propagation models can predict the arrival of a distant swell within a 6 hour window of time. Mike has studied these models daily since1996 over the last 17 years relating meteorology to surface winds & then wave generation and propagation. The ultimate verification of a model's forecasting ability was to see the swell "light up" offshore weather buoys, and ultimately arrive at the beach with the size & period forecasted. Mike Currently provides Surf Forecasting services through his company Northeast WaveWatch.com for northernsurfer.com & PlumIslandSurfco.com. Mike is also actively involved in sea-level rise planning & adaptation for local communities.

So why did Mike complete a study on Plum Island Beach erosion? Mike and his wife Jen Wright own a home on Plum Island. In 2006, Jen was elected to the position of selectman for the town of Newbury. During her term, beach erosion at Plum Island had accelerated and became a great concern. Understanding Mike's knowledge of oceanography, she asked him to attend some of the early meetings about the problem and make sense of the science. What became apparent was that there were many theories, very little science, and a plan in the works to solve a problem that no one had taken the time to unravel & understand.

Realizing that it's impossible to solve an ill defined problem, Mike set off with camera in hand, photographing the beach, its dunes, the rock groin structures and the Merrimack River mouth. His curiosity motivated him to understand what was happening along the shore. To observe and quantify changes along the Plum Island shore, he also researched historical nautical charts dating from present day back to the pre-revolutionary war era. He analyzed some 90 years of Massachusetts CZM shoreline change data as well as 15 years of satellite imagery.

He charted the changes Plum Island had undergone and related these changes to events in Plum Island history. To better understand the forces (wave energy) driving Plum Island's sand migration, Mike sifted through some 7000 hours of actual wave buoy data where he discovered that wave direction during Northeast storms changes as the storm evolves, and so isn't always only from the Northeast. In fact, the most powerful waves impacting Plum Island's shore almost always originate from far offshore, to the east and southeast - it was a fact that Mike a (scientific) surfer already knew. The study became rather involved and rather large very quickly. In total Mike devoted some 300 hours to this work and some one hundred visits to the Plum Island shore during 2008. To this day, Mike can't help but observe which way the sand is moving along the beach on any given day.

Mike presented the results of his work in a Power Point presentation to members of the Army Corp of Engineers at Congressman John Tierney’s Office in June of 2008 where it was well received. In the same month he also made a presentation to the Newbury Beach Committee who felt that every resident of Plum Island should view this information. Through the summer of 2008 Mike refined his presentation & gathered more photographic data. In September he presented his study to the Town of Newbury where after he received a standing ovation. Impressed with his work & message, The Massachusetts Audubon Society had Mike make an encore presentation in October. Since then Mike has devoted his efforts to making this information more widely available to the Public through the development of this website and further presentations to interested groups. The Town of Salisbury enlisted his expertise in evaluating their shore line as well and aired his presentation on Salisbury Cable TV during the summer of 2010. Segments of Mike's Presentation, "Unlocking the Mystery of Beach Erosion at Plum Island" can be viewed on this website. "In a Nutshell “as it is called, zeros in on the key issues facing Plum Island.

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Tuesday, 05 March 2013 02:04

Sustainable Solutions

Written by Mike Morris

In our efforts to stabilize a river entrance and occupy a migrating & fragile dune system, we have fought natures processes, with little understanding and respect of them. Consequently we’ve disrupted sand migration & are the cause of the very erosion we are fighting. We now have an understanding of Nature’s processes, that we didn’t have 100 years ago. It’s not an inexpensive or easy problem to solve, but the dynamics can be made to work in our favor. If we finally accept the opportunity to work with nature’s processes, then maybe we can end our 100 year fight against them.

"River Dredging & Beach Nourishment - Unsustainable Solutions"

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"Sustainable Solutions"

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Tuesday, 05 March 2013 02:01

Super Storm Sandy – A Meteorological Near Miss

Written by Mike Morris

Super Storm Sandy, October 29, 2012

The earth is engaged in a never ending struggle to balance its temperature extremes - that is the extreme cold at the poles with the extreme heat of the tropics. The job of tropical weather systems is to vacuum heat from the tropical oceans & deliver it to the poles. Conversely cold fronts & cold core low pressure systems take the cold from the poles & cast it south over the warm oceans, cooling the warm sea which concurrently warms the cold air mass. This dance of cold & warm air oftentimes results in intense storms. Some storms are purely tropical, like Hurricanes, while others are purely cold core, such as Nor’easters that tap their heat energy from the warm Gulf Stream. Others however are a combination of the two – a Hybrid storm. These hybrid systems typically occur in the fall when ocean temperatures are the warmest, tropical systems are common, and the northern jet tracks cold core low pressure systems further south where they feed off this tropical heat energy. These intense storms form because of the relative extreme contrast of the two clashing air masses & the immense amount of heat energy infused by a tropical system. With the temperature of the oceans rising, it is logical to conclude that there is more heat energy available & hence a greater clash to be had when the air masses collide.

Atlantic 2012 HuricaneTrack Summary Weather Underground

2012 Atlantic Hurricane Track Summary – Most Tropical Systems Don’t Impact us.

Envision the Atlantic as an immense bowling alley & the east coast population centers are its pins. Each year the tropics roll a series of systems in our direction. While the majority of tropical disturbances don’t have much punch, and many end up as “gutter balls” curving back out to sea, some do manage to develop into “strikes”, impacting the U.S. east coast, but that isn’t so common. More common are cold core low pressure systems that ride up the east coast, feeding off the Gulf Stream, sometimes “striking” as intense Nor’easters. As we transition from summer into fall & winter, tropical systems often combine with advancing cold core systems to produce some very intense “Hybrid Storms” – part Hurricane, part Extra Tropical Low. Hybrid storms happen quite often. Virtually every tropical system that is drawn northward transitions or becomes absorbed into a cold core area of low pressure. We just don’t hear much about them as this frequently occurs NE of us, in the North Atlantic. However, sometimes variables align such that this clash happens closer to home. Three noteworthy storms that most adults of today will remember are the Perfect Storm or Halloween Gale of 1991, the Halloween Northeaster of 2011 that dropped a foot of snow and was also accompanied by huge seas, and of course Super Storm Sandy in October of 2012. Interestingly, all three of these systems unleashed their fury during the last week of October.

The Perfect Storm October 1991 Photo: NOAA

perfectstorm Satellite Oct 30 1991

The Halloween Northeaster October 30, 2011 Photo: Washington.edu

Halloween 2011 Noreaster Oct 30 Wash Univ

Super Storm Sandy October 29, 2012 Photo: NASA

Sandy satellite-Oct-29

On the grand scale of things, Plum Island dodged a bullet with Sandy. A meteorological wobble in the storm which spanned 1000 miles of ocean, altered its storm track by 150 miles, sparing New England, while devastating Long Island & New Jersey. Let’s examine how close we came.

As Sandy tracked N/NE off the mid- Atlantic coast, she was blocked by an area of low pressure to her east & high pressure to her N/NW. This funneled the storm into the Northeast U.S. It became a challenge of predicting how far north she’d travel, before she was forced west, after which she would stall. Had the storm continued north for just 6-12 additional hours before turning west, she would have made land fall on Long Island, instead of southern New Jersey. This 150 mile alteration in storm track would have placed her northern wind-field & storm surge across Massachusetts, where she may have stalled for 3 days as she spun herself down. Imagine 6 storm tide cycles; it would have changed the landscape.

Our Worst Case Scenario Wind & Sea State- a Long Island Landfall for Sandy

Worst-Case-E-LI-Landfall-Oct-28

New Jersey & Long Island’s Devastation would have been ours…

Seaside Heights Sandy Aftermath Photo: AP IMAGES

Seaside Heights sandy aftermath AP Images

Sandy Forms a New Inlet Photo: Reuters

Sandy forms a new Inlet Reuters

Where Would Our New Inlet Form? Photo: Mike Morris

The Next Inlet

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Tuesday, 05 March 2013 02:00

Climate Change, Sea Level Rise & Barrier Island Retreat

Written by Mike Morris

(Scroll down for Power Point Slides)

Long ago, the Plum Island & Salisbury Beach Barrier Islands formed transgressively in response to a slowly warming planet that prompted a gradual rise in sea level. Wave action plowed glacial deposits landward, shallowing the sea. Once sands were washed above sea level by varying wave energies, winds took over & built dunes. Since the process was gradual, plants were able to take root, building the Islands vertically, as they captured the wind driven sands driven ashore by ocean waves. Overtime the sea continued to rise, storms helped to erode the foreshore & dunes, sometimes even creating new inlets. Waves would eventually top the dunes in low spots, pushing sands to the island’s rear. As the foreshore was encroached upon by the sea, plant growth would retreat & eventually establish itself in these over wash sands. As a result, the island would in effect slowly “transgress” or retreat toward the mainland, migrating over the salt water marsh in the process.

Because all of this happened slowly over thousands of years, the marsh located behind the barriers, had the opportunity to also retreat as waters rose & the islands encroached upon them. Offshore of Salisbury beach for example, it is possible to see the peat & clay of an ancient marsh rising from the sea floor, as the barrier’s sands continue to migrate westward. If you walk the beach following large wave events, you might find parts of this peat broken up & washed ashore there.

Today, due to Human Induced Climate Change, storms are more frequent & intense, and sea level is rising faster than it ever has in the world’s Geologic past. Scientists are uncertain about how fast sea level will rise, & how quickly barrier Islands & their backwater marshes will, or can respond. If barrier island retreat happens too quickly, the marshes may not be able to keep pace with the rising waters & the advancing sand mass. This will have far reaching ecological impacts, one of which will severely impact local fisheries. For developed Barrier Islands, recent history reveals that the combination of climate induced sea level rise coupled with climate enhanced storm activity, will have devastating results when barrier over wash & new inlet formation occurs. In fact, long before the water gets uncomfortably high in the calm bays & estuaries, or begins to seep up the streets along the backside of Plum Island, climate enhanced storm activity & frequency will begin to dramatically alter the shore. A hotter ocean contains more heat energy & a warmer climate will allow the atmosphere to absorb more moisture. When the meteorological variables align (as they did with Super Storm Sandy & the February 2013 Blizzard) the ingredients will combine to produce incredibly intense storms. Climate change & Sea Level Rise will have far reaching implications for Humanity & our Planet. Implications, we are just beginning to understand. As the climate warms & sea levels rise, we are literally entering uncharted waters.

For more on this topic and its implications read John Englander’s:

High Tide on Main Street: Rising Sea Level and the Coming Coastal Crisis
By John Englander; Foreword by Jean-Michel Cousteau
Publisher: The Science Bookshelf; ISBN 978-0615637952

"Climate Change, Sea Level Rise & Barrier Island Retreat"

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Tuesday, 05 March 2013 01:59

The Barrier Dune System

Written by Mike Morris

The barrier dune system represents a second line of defense for our shore & Barrier Island. Our first line of defense is the Beach Berm – the sandy area between the dunes & the water where you place your towel or chair to spend a day at the beach. But the Beach Berm is really a no man’s land for sand. With nothing to cling to wind moves sand along the beach, into the dunes or even back into the water. The Beach Berm is like your check book. The sand or money that’s there today isn’t the same sand or money that will be there tomorrow, or in a week. With constant withdrawals & deposits, we strive to maintain an average, albeit transient “Daily Balance”. Like unexpected expenses, storms can make large withdrawals from a Beach Berm, but a healthy barrier dune acts like a savings account, keeping the checkbook in balance when necessary. Erosion occurs when withdrawals exceed deposits & the sand reserves of the Barrier Dune have been depleted.

On developed shores, the Barrier Dune system is at best neglected & most often severely compromised. There the dunes can’t store sand as the dunes themselves are filled with houses. On Plum Island, the Barrier Dune system that we rely on has dwindled to a slim sliver of sand. With climate change & sea level rise a reality, a robust barrier dune system is essential to preventing storm induced wash over & Barrier Island Retreat. We should learn to treat it well.

(To Illustrate Certain Points, Some of the Power Point Slides contain Images from Salisbury Beach & are so noted)

“The Barrier Dune System”

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“How to Grow a Sand Dune”

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Tuesday, 05 March 2013 01:58

Beach Groins

Written by Mike Morris

As waves wash along a beach they naturally move sand along the shore. The direction that sand moves is dependent on the angle at which waves approach the beach. Beach groins are structures, oftentimes made of stone, placed perpendicular to the shore to act as dams, restricting the movement of migrating sand. Watch this short animation to see how waves move sand along a shore…

“Long Shore Drift Animation”

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Given prevailing wave origins, sand migration along a shore is typically in one direction. While Periodic reversals do take place, they are short lived. The Beach on Plum Island faces just slightly Northeast. Wave approach is primarily from the E & SE. This drives sand north from roughly the middle of the Wild Life Refuge to the river jetty. In contrast, offshore near the River Mouth, the southern half of the Merrimack River delta bar faces Southeast. With the same angle of wave approach, this simple change in orientation of the delta bar, promotes a southerly sand migration offshore. So, offshore the sand moves south & on the beach it travels north. One can envision a circulation here. You can view the journey that Plum Island Sand makes below:

“Plum Island Sand Journey”

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So how do groins affect sand migration on the shore at Plum Island? When the shore is wide, these groins are covered with sand & have no effect on the shore profile. However, when the shore narrows & the groins become exposed, they gather sand on one side, while promoting erosion on the other. If you own a home on the north side of a groin at Plum Island, you are at risk.

“How a Beach Groin Works”

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Tuesday, 05 March 2013 01:57

Shoreward Migrating Sandbars

Written by Mike Morris

(Scroll down for Power Point Slides)

With the river delta bar & its sand supply now far offshore, sand migration back to shore via wave action, is slow & protracted. In the process of migrating back to shore, sandbars alter the angle at which waves approach the beach. This has resulted in erosion hotspots at various points along the shore.

In recent history, as Jetty Breaches have allowed sand to spill from the ocean shores into the river, this sand ultimately washed out to the delta bar at the river entrance. Here, wave action drove some of that sand south, growing a long sand bar, offshore of Plum Island. While Wave action expanded the bar to the south, it concurrently also drove it towards shore. As a consequence of this process, the southern tip of this bar refracted incoming wave energy, creating erosion hotspots on the beach. These Hotspots mirrored & traveled with the tip of this southerly expanding sandbar. For example, we've observed an erosion hotspot near the area of Mad Martha's around the year 2000. As the offshore bar expanded southward, this erosion hotspot also migrated south - to the center groin by 2004.

With a narrower overall shore, Plum Island's beach groins became uncovered. As this traveling erosion hotspot interacted with the now exposed center groin, we experienced extreme instances of beach erosion there. Currently this migrating bar is close to shore near Plum Island Center, providing protection from offshore waves & passing sand to the that shore, which was recovering in early 2013. The tip of this sandbar however, now lies south of the center, refracting wave energy there. Hence, the erosion hotspot moved further south once again, to the area between the Center Groin & Harvard Way. This sequence of events happened previously in the early & mid 1970's.

Offshore Sandbars Near Plum Island Center

SandBar Panorama North of Center 4 22 10

"Shoreward Migrating Sandbars"

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Tuesday, 05 March 2013 01:55

The River Jetty System

Written by Mike Morris

(Scroll down for Power Point Slides)

Without question, the single most effective action to be taken to stave the erosion problem at both Salisbury & Plum Island beaches is to repair the landward end of both River Mouth Jetties where wave action has tumbled the granite stones into the river. To best prepare both shores for future sea level rise, a redesign of these structures also needs to be considered. To understand this position, let’s examine the function of the River Jetties.

When the Jetties were 1st constructed, shallow sandbars and shipping were primary concerns. Much like attaching a nozzle to a garden hose, the objective was to narrow the width of the river channel thereby increasing river current velocity. This increase in flow was to scour the river bed of sand keeping the channel deep for shipping purposes. However, the river bed never remained deep enough, as coastal processes kept refilling the channel with sand. Hence the Jetties were extended in length a number of times to prolong the duration of increased current velocity, driving that "nuisance sand" out to sea, and to keep sand from spilling into the channel from the shores of the barrier islands. The net effect of Jetty construction however, was that the river delta bar & its sand supply, which was once near shore & fused with area beaches, was relocated far off shore. As a side effect, the South Jetty began to act like a giant beach groin collecting sand along its south side widening & increasing the height of Plum Island. Ultimately, nature prevailed, the channel never remained shallow enough & a dredging program was implemented.

Though they were built as navigation structures, we see that the River Jetties actually serve a second function that directly impacts neighboring shores – gathering sand on the beach side & keeping it out of the river channel. So, relative to the barrier islands they also behave as what are known as Terminal Groins. As Terminal Groins, the Jetties bracket both shores, halting sand migration into the river, thereby keeping portions of the beaches near the river mouth stable. When low spots (or wave induced breaches) do form in the Jetties close to shore, nature’s cycles quickly resume and wave action efficiently passes sand from both the Plum Island & Salisbury beaches into the river. The result is a narrowing of the shoreline. Today, the most significant low spot or breach in the Jetty lies close to shore on Plum Island where it dictates a new high water mark, narrowing the overall shore, encroaching upon existing homes. Sand can only build up (widening the shore) to the point of the Jetty breach. Any wider and wave action simply passes the sand through the breach into the river- ultimately expanding Plum Island Point. This isn't just a storm wave event, but a 24 hour a day sand migration that is part of a spit building process that nature seeks to continue. Plum Island Point is a continuously expanding Sand Spit that the Jetty (when it's intact) serves to interrupt.

Looking back into history, when the South Jetty was first constructed on Plum Island, this spit building process quickly stacked sand up behind the Jetty along the ocean facing shore increasing both the width & height of the barrier island - all the way back to the National Wildlife Refuge. The effect is much like a highway accident where cars driving north encounter an incident & then, as they collect, traffic backs up far to the south. This newly formed piece of real estate promptly filled with houses - where water once was. Now their existence is tied to the integrity of the South Jetty. When the Jetty fails, coastal processes drive sand back into the river, the shore narrows & houses are in jeopardy.

"The River Jetty System"

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"The South Jetty Breach"

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Tuesday, 05 March 2013 01:54

The Problem…In a Nutshell

Written by Mike Morris

The 5 Major Causes of Beach Erosion at Plum Island

(Scroll down for Power Point Slides)

In 2008, 5 interrelated causes of beach erosion were identified at Plum Island. These causes interact with one another and are:

1)A near shore breach in the Merrimack River South Jetty (& North Jetty in Salisbury) that passes sand from the ocean facing shore into the river, narrowing the overall shore.

2)A River Jetty System that forces a once near shore sand supply offshore, away from the beaches, helping to create #3…

3)Shoreward migrating sandbars that alter wave energy & direction thereby accelerating sand migration along the beaches, creating erosion hot spots.

4)The center groin which, when uncovered, blocks sand migration to the north (and interacts with #3 to create an erosion hotspot)

5)A barrier dune system compromised by real-estate development.

Though they were built as navigation structures, we see that the River Jetties actually serve a second function that directly impacts neighboring shores – gathering sand on the beach side & keeping it out of the river channel. So, relative to the barrier islands they also behave as what are known as Terminal Groins. As Terminal Groins, the Jetties bracket both shores, halting sand migration into the river, thereby keeping portions of the beaches near the river mouth stable. When low spots (or wave induced breaches) do form in the Jetties close to shore, nature’s cycles quickly resume and wave action efficiently passes sand from both the Plum Island & Salisbury beaches into the river. The result is a narrowing of the shoreline with the exposure of the rock groin structures on Plum Island. (These exposed groins can themselves create episodes of erosion on their down drift sides.) Today, the most significant low spot or breach in the (south) Jetty lies close to shore on Plum Island. The breach dictates a new high water mark that narrows the overall shore & encroaches upon existing homes. Sand can only build up (widening the shore) to the point of the Jetty breach. Any wider and wave action simply passes the sand through the breach into the river- ultimately expanding Plum Island Point.This isn't just a storm wave event, but a 24 hour a day sand migration that is part of a spit building process that nature seeks to continue. Plum Island Point is a continuously expanding Sand Spit that the Jetty (when it's intact) serves to interrupt.

To compound matters further, with the river delta bar & its sand supply now far offshore, sand migration back to shore via wave action, is slow & protracted. Also, in the process of migrating back to shore, sandbars are created that alter the angle at which waves approach the beach. This has resulted in erosion hotspots at various points along the shore. In recent history, as Jetty Breaches have allowed sand to spill from the ocean shores into the river, this sand ultimately washed to the delta bar at the river entrance. Here, wave action drove some of that sand south, growing a long sand bar, offshore of Plum Island. While Wave action expanded the bar to the south, it concurrently also drove it towards shore. As a consequence of this process, the southern tip of this bar refracted incoming wave energy, creating erosion hotspots on the beach. These Hotspots mirrored & traveled with the southern tip of this southerly expanding sandbar. For example, we’ve observed an erosion hotspot near the area of Mad Martha’s (around the year 2000), migrate south to the center groin by 2004. With a narrower overall shore, Plum Island’s beach groins became uncovered. As this traveling erosion hotspot interacted with the previously covered center groin for example, we experienced extreme instances of beach erosion there. Currently this migrating bar is near the center, providing protection from offshore waves & passing sand to the Center whose shore is finally recovering. The southern tip of this sandbar now lies south of the center, refracting wave energy there. Hence the erosion hotspot moved further south again, to the area between the Center Groin & Harvard Way.

Ideally we should calculate an ideal beach width, redesign & shorten the Jetty System such that the delta bar relocates closer to shore, fuses with the barrier islands and establishes a more constant sand feed. It is important to note that some sand will still need to pass from the ocean beach of Plum Island, to Plum Island Point in the river, else that shore will severely erode as it has in the past following Jetty repair & an aggressive river dredging campaign.

Though Beach nourishment activities can buy homeowners time, they are at this juncture, temporary, very short term, & expensive solutions. The situation is analogous to filling a bucket of water to the rim, but the bucket has a hole in its side (the Jetty Breach). No matter how much water is added (& in the case of Plum Island & Salisbury beaches it is sand) one can never keep the bucket full.

In the effort to stave erosion, the cart here, has been placed before the horse. Until this failed infrastructure is altered, one can’t expect any type of sand, be it fine or coarse, dredged or driven ashore by waves naturally, to hang around for very long. To solve this problem one needs to fix the infrastructure first, be it through repair, or better yet, re-design, and then employ beach nourishment & conservation activities. Until then, we are simply pouring taxpayer dollars into the sea. Make no mistake, climate change & sea level rise are a reality & at some point many barrier islands will lose this battle. But right now it is this navigation structure that is impacting us to a greater degree. To best face climate change & sea level rise, it's important that we understand the coastal processes at Plum Island, design a proper river mouth that best stabilizes the nearby shores and requires a minimal amount of maintenance, be it dredging or otherwise.

Mike Morris

The 5 Major Causes of Beach Erosion at Plum Island

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Tuesday, 05 March 2013 01:51

Plum Island, Massachusetts

Written by Mike Morris

Plum Island is an 8 mile long, narrow, sandy Barrier Island off the northern coast of Massachusetts. The Island is divided among 4 townships: Newburyport, Newbury, Rowley and Ipswich. While the southern two thirds of the island have been set aside for the Parker River National Wildlife Refuge, the Northern third which borders the Merrimack River is densely populated and developed. It is this area that is currently, and has historically been, subject to episodes of beach erosion.

In our efforts to stabilize a river entrance and occupy a migrating & fragile dune system, we have fought natures processes with little understanding and respect of them. Consequently we’ve disrupted sand migration & are the cause of the erosion we are fighting. Today we have a clearer understanding of the processes at work on our shore. If we choose to work with them, we can solve this problem, or continue our 100 year fight against them.

Review the information on this site. Understand what nature is doing, and decide whether we are actually solving the problem of erosion at Plum Island.

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