From a drawing by S. ShimotoriSeepage 120THE REGAL FRITILLARY, FEMALELITTLE NATURE LIBRARYBUTTERFLIES WORTH KNOWINGBY CLARENCE M. WEED, D. Sc.AUTHOR OFSeeing Nature First,Nature Biographies,Ten New England Blossoms,The Flower Beautiful,etc.Printer's LogoIllustrated by Forty-eight PlatesThirty-two in ColorPUBLISHED BYDOUBLEDAY, PAGE & COMPANYFORNELSON DOUBLEDAY, Inc.1922Copyright, 1917, byDoubleday, Page & CompanyAll rights reserved, including that oftranslation into foreign languages,including the ScandinavianPRINTED IN THE UNITED STATESATTHE COUNTRY LIFE PRESS, GARDEN CITY, N. Y.PREFACEIn this little book an attempt has been made to discuss the more abundant and widely distributed butterflies of eastern North America from the point of view of their life histories and their relations to their surroundings. In so doing I have of course availed myself of the written records of a host of students of butterflies, without whose labors no such volume would be possible. Among these two names stand out preëminent—William H. Edwards and Samuel H. Scudder. Each was the author of a sumptuous work on American butterflies to which all later students must refer, both for information and for inspiration. Many others, however, have made notable contributions to our literature of these ethereal creatures. Every seeker after a knowledge of butterflies will soon find himself indebted to the writings of such investigators as the Comstocks, Denton, Dickerson, Dyar, Fernald, Fiske, Fletcher, French, Hancock, Holland, Howard, Longstaff, Newcomb, Riley, Skinner, Wright, and many others. I am glad to express my obligations to all of these for the assistance their records have given in the preparation of this book.While a vast amount of knowledge of butterflies has already been discovered there is still more to be learned concerning them, and throughout these pages I have attempted to indicate the more important opportunitiesawaiting investigation. The day of the field naturalist has come again and the butterflies are well worthy of careful observations by many interested students.The illustrations in the book require a word of credit. The eleven color plates of adult butterflies with wings spread have been made direct from a set of the remarkable transfers which Mr. Sherman F. Denton has been preparing for the last quarter-century, this particular set having been prepared especially for this book. Transfers of this sort were used as insets in Mr. Denton's work on the "Moths and Butterflies of the United States," published in a limited edition by J. B. Millet Company, Boston. The other plates not reproduced from photographs are from drawings by Miss Mary E. Walker or Mr. W. I. Beecroft. In case the photographs are not of my own taking, credit is given beneath each. Two of my photographs have already appeared in "Seeing Nature First" and are here used by permission of its publishers, J. B. Lippincott Company.C. M. W.State Normal SchoolLowell, Mass.CONTENTSPAGEPrefacevList of Colored IllustrationsxiList of Other IllustrationsxiiiPART IINTRODUCTIONButterfly Transformations5Butterflies and Moths13The Scents of Butterflies15Butterfly Migrations16Hibernation or Winter Lethargy17Aestivation or Summer Lethargy21Feigning Death in Butterflies22Coloration of Butterflies24Selective Color Sense in Butterflies32Warning Coloration and Mimicry33Heliotropism35List and Shadow Observations37Parasitic Enemies40Rearing Butterflies from Caterpillars43Photographing Butterflies47Butterfly Collections49PART IIPAGETrue Butterflies—SuperfamilyPapilionoidea55Parnassians(Parnassiinae)56The Swallowtails(Papilionidae)Black Swallowtail; Giant Swallowtail; Blue Swallowtail; Green-clouded Swallowtail; Tiger Swallowtail; Palamedes Swallowtail; Short-tailed Papilio; Zebra Swallowtail; Synopsis of the Swallowtails57Whites, Orange-tips, and Yellows(Pieridae)82The Tribe of the Whites: White or Imported Cabbage Butterfly; Gray-veined White; Checkered White; Great Southern White; Synopsis of the Whites83The Tribe of the Orange-tips: Falcate Orange-tip; Olympian Orange-tip; Synopsis of the Orange-tips92The Tribe of the Yellows: Brimstone or Cloudless Sulphur; Dog's-head; Clouded Sulphur; Orange Sulphur; Pink-edged Sulphur; Black-bordered Yellow; Little Sulphur; Dainty Sulphur; Synopsis of the Yellows97Nymphs(Nymphalidae)111The Tribe of the Fritillaries: Gulf Fritillary; Variegated Fritillary; Diana Fritillary; Regal Fritillary; Great Spangled Fritillary; Silver-spot Fritillary; Mountain Silver-spot; White Mountain Fritillary; Meadow Fritillary; Silver-bordered Fritillary; Synopsis of the Fritillaries115The Tribe of the Crescent-spots: Baltimore Checker-spot; Harris's Checker-spot; Silver Crescent; Pearl Crescent; Synopsis of the Crescent-spots135The Tribe of the Angle-wings: Violet-tip; Hop-merchant or Comma; Gray Comma; Green Comma; Red Admiral or Nettle Butterfly; Painted Beauty; Painted Lady or Cosmopolite; Mourning-cloak; American tortoise-shell; White J Butterfly or Compton Tortoise; Buckeye; Synopsis of the Angle-wings (I. Polygonias—II. Vanessids)150The Tribe of the Sovereigns: Viceroy; Banded Purple; Red-spotted Purple; Vicereine; Synopsis of the Sovereigns192The Tribe of the Emperors: Goatweed Emperor; Gray Emperor; Tawny Emperor; Synopsis of the Emperors207Meadows-browns or Satyrs(Agapetidae)Common Wood Nymph or Grayling; Southern Wood Nymph; Pearly Eye; Eyed Brown; White Mountain Butterfly; Arctic Satyr; Little Wood Satyr; Other Meadow-browns; Synopsis of Meadow-browns214Heliconians(Heliconidae) Zebra Butterfly229Milkweed Butterflies(Lymnadidae) Monarch; Queen232Snout Butterflies or Long-beaks(Libytheidae) Snout Butterfly236Metal-marks(Riodinidae) Small Metal-mark; Large Metal-mark239Gossamer-wings(Lycaenidae)240The Tribe of the Hair-streaks: Great Purple Hair-streak; Gray Hair-streak; Banded Hair-streak; Striped Hair-streak; Acadian Hair-streak; Olive Hair-streak; Synopsis of the Hair-streaks242The Tribe of the Coppers: Wanderer; American Copper; Synopsis of the Coppers252The Tribe of the Blues: Spring Azure; Scudder's Blue; Tailed Blue; Silvery Blue: Synopsis of the Blues258PART IIIPAGEThe Skipper Butterflies—SuperfamilyHesperioidea266Giant Skippers(Megathymidae) Yucca-borer Skipper267Common Skippers(Hesperiidae)268The Tribe of the Larger Skippers: Silver-spotted Skipper; Long-tailed Skipper; Juvenal's Dusky-wing; Sleepy Dusky-wing; Persius's Dusky-wing; Sooty Wing269The Tribe of the Smaller Skippers: Tawny-edged Skipper; Roadside Skipper; Least Skipper278LIST OF COLORED ILLUSTRATIONSPAGEViceroy Butterflies Visiting Strawberries(On Cover)The Regal FritillaryFrontispieceThe Carolina Locust33The Black Swallowtail48The Cynthia Moth49Giant Swallowtails64The Blue Swallowtail65Two of the Swallowtails: Palamedes and Giant66The Green-clouded Swallowtail67Caterpillars of the Green-clouded Swallowtail80The Tiger Swallowtail96Imported Cabbage Butterfly97Clouded Sulphur Butterfly112The Zebra Swallowtail: Summer Form112-113The Zebra Swallowtail Visiting Papaw Blossoms112-113Some of the Tribe of Yellows113Silver-spot Fritillary and Gulf Fritillary128Gulf Fritillary, Silver-bordered Fritillary, and Baltimore Checker-spot129The Hop Merchant144Three Angle-wings (American Tortoise-shell, Red Admiral, Violet-tip): Upper Surface160-161Three Angle-wings (American Tortoise-shell, Red Admiral, Violet-tip): Lower Surface160-161The Painted Beauty161Three More Angle-wings, Buckeye, Painted Beauty, Cosmopolite176The Mourning-cloak177Some Common Skippers192The Stages of the Viceroy193Banded Purple, Red-spotted Purple, and Blue-eyed Grayling208Three Emperor Butterflies209The Zebra Butterfly224Monarch Butterfly, Crysalis and Caterpillar241Spring Azure, Falcate Orange-tip, Bronze Copper, and Great Purple Hair-streak256Silver-spotted Skipper273LIST OF OTHER PLATESPAGESwallowtail Butterfly Just Out of Chrysalis16Tiger Swallowtail;Hammock Caterpillar17Butterfly Feigning Death;Butterfly in Hibernating Position32Monarch Butterfly: Change from Caterpillar to Chrysalis32-33Monarch Butterfly: Change from Chrysalis to Adult32-33Migration of Monarch Butterflies48-49The Improved Open Vivarium48-49Black Swallowtail Visiting Thistle64-65Imported Cabbage Butterfly, Magnified64-65Imported Cabbage Butterfly;Blue-eyed Grayling81Four-footed Butterflies:ViceroyandMourning-cloak145Monarch Butterfly Resting;Flashlight Photograph of Monarchs in Migration160Photographs of a Pet Monarch Butterfly225The Snout Butterfly;the Giant Swallowtail240Stages of the Gray Hair-streak257The Silver-spotted Skipper272BUTTERFLIES WORTH KNOWINGBUTTERFLIESPART IINTRODUCTIONIn popular esteem the butterflies among the insects are what the birds are among the higher animals—the most attractive and beautiful members of the great group to which they belong. They are primarily day fliers and are remarkable for the delicacy and beauty of their membranous wings, covered with myriads of tiny scales that overlap one another like the shingles on a house and show an infinite variety of hue through the coloring of the scales and their arrangement upon the translucent membrane running between the wing veins. It is this characteristic structure of the wings that gives to the great order of butterflies and moths its name Lepidoptera, meaning scale-winged.In the general structure of the body, the butterflies resemble other insects. There are three chief divisions: head, thorax, and abdomen. The head bears the principal sense organs; the thorax, the organs of locomotion; and the abdomen, the organs of reproduction.Butterfly Antennae, magnified. (From Holland)By examining a butterfly's head through a lens it is easy to see the principal appendages which it bears. Projecting forward from the middle of the top is a pair of long feelers or antennae. Each of these consists of short joints whichin general may be divided into three groups: first, a few large joints at the base connecting the feeler with the head; second, many rather small joints which make up the principal length; third, several larger joints which make up the outer part or "club" of the antennæ. In the case of the Skippers, there are in addition a number of small joints coming to a sharp point at the end of the club. Just below the insertion of the antennae on each side of the head are the large compound eyes, which are almost hemispherical. With a powerful glass, one can see the honeycomb-like facets, of which there are thousands, making up each eye. Just below the eyes there are two hairy projections, called the palpi, between which is the coiled tongue or sucking tube. (See plate,page 64-65.)Anatomically the thorax is divided into three parts—the prothorax, the mesathorax, and the metathorax; but the lines of division between these parts are not easily seen without denuding the skin of its hairy covering. The prothorax bears the first pair of legs. The mesathorax bears the front pair of wings and the second pair of legs. The metathorax bears the hind pair of wings and the third pair of legs. In many butterflies, the first pair of legs are so reduced in size that they are not used in walking.The abdomen is composed of eight or nine distinct rings or segments, most of which have two spiracles or breathing pores, one on each side. It also bears upon the end of thebody the ovipositor of the female or the clasping organs of the male.Butterfly TransformationsThe butterflies furnish the best known examples of insect transformations. The change from the egg to the caterpillar or larva, from the caterpillar to the pupa or chrysalis, and from the chrysalis to the butterfly or imago is doubtless the most generally known fact concerning the life histories of insects. It is a typical example of what are called complete transformations as distinguished from the manner of growth of grasshoppers, crickets, and many other insects in which the young that hatches from the egg bears a general resemblance to the adult and in which there is no quiet chrysalis stage when the little creature is unable to eat or to move about.The Growth of the CaterpillarsEgg of Baltimore Butterfly, much magnified.(From Holland)Caterpillars are like snakes in at least one respect: in order to provide for their increase in size they shed their skins. When a caterpillar hatches from the egg it is a tiny creature with a soft skin over most of its body but with rather a firm covering for its head. While we might fancy that there could be a considerable increase in size provided for by the stretching of the soft skin it is easy to see that the hard covering of the head will not admit of this. So the story of the growth of a caterpillar may be told in this way:A butterfly lays an egg upon a leaf. Some days laterthe egg hatches into a larva, which is the technical name for the second stage of an insect's life. In the case of the butterfly we call this larva a caterpillar. The little caterpillar is likely to take its first meal by eating the empty egg shell. This is a curious habit, and a really satisfactory explanation of it seems not to have been made. Its next meal is likely to be taken from the green tissues of the leaf, commonly the green outer surface only being eaten at this time. The future meals are also taken from the leaf, more and more being eaten as the larva gets older.After a few days of this feeding upon the leaf tissues the little caterpillar becomes so crowded within the skin with which it was born that it is necessary to have a larger one. So a new skin begins to form beneath the first one. Consequently the latter splits open in a straight line part way down the middle of the back just behind the head. Then the new head covering is withdrawn from the old one and the caterpillar wriggles its way out of the split skin and finds itself clothed in a new one. At first all of the tissues of the new skin are soft and pliable and they easily take on a larger size as the body of the caterpillar expands. A little later these tissues become hardened and no further expansion is possible.This process of skin-shedding is called moulting. The cast skin is often called the exuviae. The period of the caterpillar's life between the hatching from the egg and this moult is often called a stage or instar—that is, the caterpillar up to the time of this moult is living in the first caterpillar stage or instar.During the actual moulting the caterpillar is quiteactive in freeing itself from the exuviae. But as soon as it is free it is likely to rest quietly for some hours while the tissues of the new skin are hardening. Then it begins feeding upon the leaf again and continues taking its meals at more or less regular intervals for several days. By that time it will again have reached its limit of growth within this second skin and the process of moulting must be repeated. It takes place in the same way as before and the caterpillar enters upon the third instar of its larval life.This process of feeding and moulting is continued for several weeks, the number of moults being usually four. During the later stages the increase in size is more marked each time the skin is shed, until the caterpillar finally reaches its full growth as a larva and is ready for the wonderful change to the quiet chrysalis in which all its caterpillar organs are to be transformed into the very different organs of the butterfly.In the case of butterfly larvae one of the most interesting features of the growth of the caterpillar is that of the remarkable changes in colors and patterns of marking which the caterpillar undergoes. One who had not followed these changes would often be at a loss to recognize caterpillars of slightly differing sizes as belonging to the same species. These changes commonly show a remarkable adaptation to the conditions of life, and generally tend to the concealment of the caterpillar upon its food plant. The stages of growth of the green-clouded swallowtail caterpillar are illustrated on plate oppositepage 80.Before each moult the caterpillar is likely to spin a silken web upon the leaf surface. It then entangles its claws in the web to hold itself in place while the skin is cast. (See plate,page 17.)The Change to the Chrysalis(See plate,pages 32-33.)A week or ten days after the last moult of its caterpillar growth the larva commonly becomes full fed and ready to change to the chrysalis state. The details of the way in which this is accomplished vary greatly with different butterflies, as will be noted in the stories of many species later in this book. In general, however, the caterpillar provides a web of silk which it spins against some surface where the chrysalis will be secure and in this web it entangles its hind legs. Sometimes there is the additional protection of a loop of silk over the front end of the body. After the legs have become entangled the caterpillar hangs downward until the skin splits open along the median line of the back and gradually shrinks upward until it is almost free, showing as it comes off a curious creature which has some of the characteristic features of a chrysalis. It is seldom at this stage of the same shape as the chrysalis. When the caterpillar's skin is nearly off this chrysalis-like object usually wriggles its body quickly in a manner to entangle a curious set of hooks attached to the upper end in the web of silken thread. This hook-like projection is called the cremaster, and it serves a very important purpose in holding the chrysalis in position.Swallowtail Chrysalis, showing (b) the loop of silk over thorax. (After Riley)As soon as the cremaster is entangled in the web the castskin usually falls off and for a very short period the creature hanging seems to be neither caterpillar nor chrysalis. It is in fact in a transition stage between the two, and it very soon shortens up and takes on the definite form of the chrysalis, the outer tissues hardening into the characteristic chrysalis skin.From the fact that this chrysalis skin shows many of the characteristic features of the future butterfly it is evident that the change from the caterpillar to the butterfly really began during the life of the larva. The nature of the process by which this change takes place has long been a puzzle to scientists. For the making of a butterfly is one of the most wonderful phenomena in the outer world, and it has challenged the attention of many acute observers. Some two centuries ago the great Dutch naturalist, Swammerdam, studied very carefully the development of many insects, especially the butterfly. He found that if he placed in boiling water a caterpillar that was ready to pupate or become a chrysalis, the outer skin could easily be removed, revealing beneath the immature butterfly with well-developed legs and antennae. From these observations he was led to believe that the process of growth was simply a process of unfolding; that is, as Professor Packard has expressed it, "That the form of the larva, pupa, and imago preëxisted in the egg and even in the ovary; and that the insects in these stages were distinct animals, contained one inside the other, like a nest of boxes or a series of envelopes one within the other." This was called the incasement theory and it was held to be correct by naturalists for nearly a century. It was discredited, however, about a hundred years ago, but not until another fiftyyears had passed was it definitely replaced by another and much more convincing theory propounded by Weismann.According to Weismann's theory, which is now well-established, the process of development internally is a much more continuous one than the external changes would indicate. So far as the latter are concerned we simply say that a caterpillar changes to a chrysalis and a chrysalis to a butterfly, the transition in each case requiring but a very short time. Internally, however, it has been going on almost continuously from the early life of the caterpillar. The various organs of the butterfly arise from certain germinal disks or "imaginal" buds, the word "imaginal" in this case being an adjective form of imago, so that the imaginal buds are really simply buds for the starting of growth of the various organs of the imago or adult. As the caterpillars approach the chrysalis period these imaginal buds rapidly develop into the various organs of the butterfly. This process is helped along by the breaking down of many of the tissues of the larva, this broken-down tissue being then utilized for the production of the new organs. About the time the chrysalis is formed this breaking-down process becomes very general, so that the newly formed chrysalis seems largely a mass of creamy material which is soon used to build up the various parts of the butterfly through the growth of the imaginal buds.The Change to the Butterfly(See plate,pages 32-33.)There is probably no phenomenon in the world of living creatures which has attracted more attention than the change of the chrysalis into the butterfly. It is not strange that this is so. We see upon a tree or shrub or wallan inert, apparently lifeless object, having no definite form with which we can compare it with other things, having neither eyes nor ears nor wings nor legs—an object apparently of as little interest as a lifeless piece of rock. A few minutes later we behold it again and note with astonishment that this apparently inanimate being has been suddenly transformed into the most ethereal of the creatures of earth, with an exquisite beauty that cannot fail to attract admiration, with wings of most delicate structure for flying through the air, with eyes of a thousand facets, with organs of smell that baffle the ingenuity of man to explain, with vibrant antennae, and a slender tongue adapted to feeding upon the nectar of flowers—the most ambrosial of natural food. So it is not strange that this emergence of a butterfly has long been the theme both of poets and theologians and that it attracts the admiring attention of childhood, youth, and age.Fortunately, this change from chrysalis to butterfly may readily be observed by any one who will take a little trouble to rear the caterpillars or to watch chrysalids found outdoors. The precise method of eclosion, as we call this new kind of "hatching," varies somewhat with different species but in general the process is similar in all.Those chrysalids which have a light colored outer skin are especially desirable if we would watch this process. One can see through the semi-transparent membrane the developing butterfly within, until finally, just before it is ready to break out, the markings of the wings and body show distinctly. If at this time the chrysalis is placed in the sunshine it is likely to come out at once, so that you can observe it readily. It usually breaks apart over the headand the newly released legs quickly grasp hold of the empty skin as well as of the support to which it is attached. It then hangs downward with a very large abdomen and with the wings more or less crumpled up, but decidedly larger than when they were confined within the chrysalis. The wings, however, soon begin to lengthen as they are stretched out, probably through the filling of the space by the body juices. Commonly, the hind pair of wings become full size before the front ones. In a short time the wings attain their full size, the abdomen becomes smaller, through the discharge of a liquid called meconium, and the butterfly is likely to walk a few steps to a better position where it will rest quietly for an hour or two while body and wing tissues harden. After this it is likely to fly away to lead the free life of a butterfly. (See plate,page 16.)These changes from larva to chrysalis and from chrysalis to adult in the case of the Monarch Butterfly are illustrated on the plates oppositepages 32-33. A little study of these photographs from life will help greatly to an understanding of the process.Some very interesting observations have been made by Mr. J. Alston Moffat upon the method of the expansion of the wings. In summarizing his investigations he writes:"When a wing is fully expanded, and for an hour or two after, the membranes can be easily separated. Entrance for a pin-point between them is to be found at the base of the wing where the subcostal and median nervures come close together. The membranes are united at the costal and inner edges, which have to be cut to get them apart; but they are free at the outer angle. At that time the nervures are in two parts, half in one membrane and halfin the other, and open in the centre. The fluid which has been stored up in the pupa enters the winglet at the opening referred to, expanding the membranes as it passes along between them, and the nervures at the same time, and when it has extended to every portion of the wing, then it is fully expanded. The expanding fluid is of a gummy consistency, and as it dries, cements the membranes together, also the edges of the half-nervures, and produces the hollow tubes with which we are so familiar."
From a drawing by S. ShimotoriSeepage 120THE REGAL FRITILLARY, FEMALE
From a drawing by S. Shimotori
Seepage 120
THE REGAL FRITILLARY, FEMALE
LITTLE NATURE LIBRARY
BUTTERFLIES WORTH KNOWING
BY CLARENCE M. WEED, D. Sc.
AUTHOR OF
Seeing Nature First,Nature Biographies,Ten New England Blossoms,The Flower Beautiful,etc.
Printer's Logo
Illustrated by Forty-eight PlatesThirty-two in Color
PUBLISHED BY
DOUBLEDAY, PAGE & COMPANY
FOR
NELSON DOUBLEDAY, Inc.
1922
Copyright, 1917, byDoubleday, Page & CompanyAll rights reserved, including that oftranslation into foreign languages,including the ScandinavianPRINTED IN THE UNITED STATESATTHE COUNTRY LIFE PRESS, GARDEN CITY, N. Y.
Doubleday, Page & Company
PRINTED IN THE UNITED STATESATTHE COUNTRY LIFE PRESS, GARDEN CITY, N. Y.
PREFACE
In this little book an attempt has been made to discuss the more abundant and widely distributed butterflies of eastern North America from the point of view of their life histories and their relations to their surroundings. In so doing I have of course availed myself of the written records of a host of students of butterflies, without whose labors no such volume would be possible. Among these two names stand out preëminent—William H. Edwards and Samuel H. Scudder. Each was the author of a sumptuous work on American butterflies to which all later students must refer, both for information and for inspiration. Many others, however, have made notable contributions to our literature of these ethereal creatures. Every seeker after a knowledge of butterflies will soon find himself indebted to the writings of such investigators as the Comstocks, Denton, Dickerson, Dyar, Fernald, Fiske, Fletcher, French, Hancock, Holland, Howard, Longstaff, Newcomb, Riley, Skinner, Wright, and many others. I am glad to express my obligations to all of these for the assistance their records have given in the preparation of this book.
While a vast amount of knowledge of butterflies has already been discovered there is still more to be learned concerning them, and throughout these pages I have attempted to indicate the more important opportunitiesawaiting investigation. The day of the field naturalist has come again and the butterflies are well worthy of careful observations by many interested students.
The illustrations in the book require a word of credit. The eleven color plates of adult butterflies with wings spread have been made direct from a set of the remarkable transfers which Mr. Sherman F. Denton has been preparing for the last quarter-century, this particular set having been prepared especially for this book. Transfers of this sort were used as insets in Mr. Denton's work on the "Moths and Butterflies of the United States," published in a limited edition by J. B. Millet Company, Boston. The other plates not reproduced from photographs are from drawings by Miss Mary E. Walker or Mr. W. I. Beecroft. In case the photographs are not of my own taking, credit is given beneath each. Two of my photographs have already appeared in "Seeing Nature First" and are here used by permission of its publishers, J. B. Lippincott Company.
C. M. W.
CONTENTS
Black Swallowtail; Giant Swallowtail; Blue Swallowtail; Green-clouded Swallowtail; Tiger Swallowtail; Palamedes Swallowtail; Short-tailed Papilio; Zebra Swallowtail; Synopsis of the Swallowtails
The Tribe of the Whites: White or Imported Cabbage Butterfly; Gray-veined White; Checkered White; Great Southern White; Synopsis of the Whites
The Tribe of the Orange-tips: Falcate Orange-tip; Olympian Orange-tip; Synopsis of the Orange-tips
The Tribe of the Yellows: Brimstone or Cloudless Sulphur; Dog's-head; Clouded Sulphur; Orange Sulphur; Pink-edged Sulphur; Black-bordered Yellow; Little Sulphur; Dainty Sulphur; Synopsis of the Yellows
The Tribe of the Fritillaries: Gulf Fritillary; Variegated Fritillary; Diana Fritillary; Regal Fritillary; Great Spangled Fritillary; Silver-spot Fritillary; Mountain Silver-spot; White Mountain Fritillary; Meadow Fritillary; Silver-bordered Fritillary; Synopsis of the Fritillaries
The Tribe of the Crescent-spots: Baltimore Checker-spot; Harris's Checker-spot; Silver Crescent; Pearl Crescent; Synopsis of the Crescent-spots
The Tribe of the Angle-wings: Violet-tip; Hop-merchant or Comma; Gray Comma; Green Comma; Red Admiral or Nettle Butterfly; Painted Beauty; Painted Lady or Cosmopolite; Mourning-cloak; American tortoise-shell; White J Butterfly or Compton Tortoise; Buckeye; Synopsis of the Angle-wings (I. Polygonias—II. Vanessids)
The Tribe of the Sovereigns: Viceroy; Banded Purple; Red-spotted Purple; Vicereine; Synopsis of the Sovereigns
The Tribe of the Emperors: Goatweed Emperor; Gray Emperor; Tawny Emperor; Synopsis of the Emperors
Common Wood Nymph or Grayling; Southern Wood Nymph; Pearly Eye; Eyed Brown; White Mountain Butterfly; Arctic Satyr; Little Wood Satyr; Other Meadow-browns; Synopsis of Meadow-browns
The Tribe of the Hair-streaks: Great Purple Hair-streak; Gray Hair-streak; Banded Hair-streak; Striped Hair-streak; Acadian Hair-streak; Olive Hair-streak; Synopsis of the Hair-streaks
The Tribe of the Coppers: Wanderer; American Copper; Synopsis of the Coppers
The Tribe of the Blues: Spring Azure; Scudder's Blue; Tailed Blue; Silvery Blue: Synopsis of the Blues
The Tribe of the Larger Skippers: Silver-spotted Skipper; Long-tailed Skipper; Juvenal's Dusky-wing; Sleepy Dusky-wing; Persius's Dusky-wing; Sooty Wing
The Tribe of the Smaller Skippers: Tawny-edged Skipper; Roadside Skipper; Least Skipper
LIST OF COLORED ILLUSTRATIONS
LIST OF OTHER PLATES
BUTTERFLIES WORTH KNOWING
BUTTERFLIES
PART I
INTRODUCTION
In popular esteem the butterflies among the insects are what the birds are among the higher animals—the most attractive and beautiful members of the great group to which they belong. They are primarily day fliers and are remarkable for the delicacy and beauty of their membranous wings, covered with myriads of tiny scales that overlap one another like the shingles on a house and show an infinite variety of hue through the coloring of the scales and their arrangement upon the translucent membrane running between the wing veins. It is this characteristic structure of the wings that gives to the great order of butterflies and moths its name Lepidoptera, meaning scale-winged.
In the general structure of the body, the butterflies resemble other insects. There are three chief divisions: head, thorax, and abdomen. The head bears the principal sense organs; the thorax, the organs of locomotion; and the abdomen, the organs of reproduction.
Butterfly Antennae, magnified. (From Holland)
By examining a butterfly's head through a lens it is easy to see the principal appendages which it bears. Projecting forward from the middle of the top is a pair of long feelers or antennae. Each of these consists of short joints whichin general may be divided into three groups: first, a few large joints at the base connecting the feeler with the head; second, many rather small joints which make up the principal length; third, several larger joints which make up the outer part or "club" of the antennæ. In the case of the Skippers, there are in addition a number of small joints coming to a sharp point at the end of the club. Just below the insertion of the antennae on each side of the head are the large compound eyes, which are almost hemispherical. With a powerful glass, one can see the honeycomb-like facets, of which there are thousands, making up each eye. Just below the eyes there are two hairy projections, called the palpi, between which is the coiled tongue or sucking tube. (See plate,page 64-65.)
Anatomically the thorax is divided into three parts—the prothorax, the mesathorax, and the metathorax; but the lines of division between these parts are not easily seen without denuding the skin of its hairy covering. The prothorax bears the first pair of legs. The mesathorax bears the front pair of wings and the second pair of legs. The metathorax bears the hind pair of wings and the third pair of legs. In many butterflies, the first pair of legs are so reduced in size that they are not used in walking.
The abdomen is composed of eight or nine distinct rings or segments, most of which have two spiracles or breathing pores, one on each side. It also bears upon the end of thebody the ovipositor of the female or the clasping organs of the male.
Butterfly Transformations
The butterflies furnish the best known examples of insect transformations. The change from the egg to the caterpillar or larva, from the caterpillar to the pupa or chrysalis, and from the chrysalis to the butterfly or imago is doubtless the most generally known fact concerning the life histories of insects. It is a typical example of what are called complete transformations as distinguished from the manner of growth of grasshoppers, crickets, and many other insects in which the young that hatches from the egg bears a general resemblance to the adult and in which there is no quiet chrysalis stage when the little creature is unable to eat or to move about.
The Growth of the Caterpillars
Egg of Baltimore Butterfly, much magnified.(From Holland)
Caterpillars are like snakes in at least one respect: in order to provide for their increase in size they shed their skins. When a caterpillar hatches from the egg it is a tiny creature with a soft skin over most of its body but with rather a firm covering for its head. While we might fancy that there could be a considerable increase in size provided for by the stretching of the soft skin it is easy to see that the hard covering of the head will not admit of this. So the story of the growth of a caterpillar may be told in this way:
A butterfly lays an egg upon a leaf. Some days laterthe egg hatches into a larva, which is the technical name for the second stage of an insect's life. In the case of the butterfly we call this larva a caterpillar. The little caterpillar is likely to take its first meal by eating the empty egg shell. This is a curious habit, and a really satisfactory explanation of it seems not to have been made. Its next meal is likely to be taken from the green tissues of the leaf, commonly the green outer surface only being eaten at this time. The future meals are also taken from the leaf, more and more being eaten as the larva gets older.
After a few days of this feeding upon the leaf tissues the little caterpillar becomes so crowded within the skin with which it was born that it is necessary to have a larger one. So a new skin begins to form beneath the first one. Consequently the latter splits open in a straight line part way down the middle of the back just behind the head. Then the new head covering is withdrawn from the old one and the caterpillar wriggles its way out of the split skin and finds itself clothed in a new one. At first all of the tissues of the new skin are soft and pliable and they easily take on a larger size as the body of the caterpillar expands. A little later these tissues become hardened and no further expansion is possible.
This process of skin-shedding is called moulting. The cast skin is often called the exuviae. The period of the caterpillar's life between the hatching from the egg and this moult is often called a stage or instar—that is, the caterpillar up to the time of this moult is living in the first caterpillar stage or instar.
During the actual moulting the caterpillar is quiteactive in freeing itself from the exuviae. But as soon as it is free it is likely to rest quietly for some hours while the tissues of the new skin are hardening. Then it begins feeding upon the leaf again and continues taking its meals at more or less regular intervals for several days. By that time it will again have reached its limit of growth within this second skin and the process of moulting must be repeated. It takes place in the same way as before and the caterpillar enters upon the third instar of its larval life.
This process of feeding and moulting is continued for several weeks, the number of moults being usually four. During the later stages the increase in size is more marked each time the skin is shed, until the caterpillar finally reaches its full growth as a larva and is ready for the wonderful change to the quiet chrysalis in which all its caterpillar organs are to be transformed into the very different organs of the butterfly.
In the case of butterfly larvae one of the most interesting features of the growth of the caterpillar is that of the remarkable changes in colors and patterns of marking which the caterpillar undergoes. One who had not followed these changes would often be at a loss to recognize caterpillars of slightly differing sizes as belonging to the same species. These changes commonly show a remarkable adaptation to the conditions of life, and generally tend to the concealment of the caterpillar upon its food plant. The stages of growth of the green-clouded swallowtail caterpillar are illustrated on plate oppositepage 80.
Before each moult the caterpillar is likely to spin a silken web upon the leaf surface. It then entangles its claws in the web to hold itself in place while the skin is cast. (See plate,page 17.)
The Change to the Chrysalis(See plate,pages 32-33.)
A week or ten days after the last moult of its caterpillar growth the larva commonly becomes full fed and ready to change to the chrysalis state. The details of the way in which this is accomplished vary greatly with different butterflies, as will be noted in the stories of many species later in this book. In general, however, the caterpillar provides a web of silk which it spins against some surface where the chrysalis will be secure and in this web it entangles its hind legs. Sometimes there is the additional protection of a loop of silk over the front end of the body. After the legs have become entangled the caterpillar hangs downward until the skin splits open along the median line of the back and gradually shrinks upward until it is almost free, showing as it comes off a curious creature which has some of the characteristic features of a chrysalis. It is seldom at this stage of the same shape as the chrysalis. When the caterpillar's skin is nearly off this chrysalis-like object usually wriggles its body quickly in a manner to entangle a curious set of hooks attached to the upper end in the web of silken thread. This hook-like projection is called the cremaster, and it serves a very important purpose in holding the chrysalis in position.
Swallowtail Chrysalis, showing (b) the loop of silk over thorax. (After Riley)
As soon as the cremaster is entangled in the web the castskin usually falls off and for a very short period the creature hanging seems to be neither caterpillar nor chrysalis. It is in fact in a transition stage between the two, and it very soon shortens up and takes on the definite form of the chrysalis, the outer tissues hardening into the characteristic chrysalis skin.
From the fact that this chrysalis skin shows many of the characteristic features of the future butterfly it is evident that the change from the caterpillar to the butterfly really began during the life of the larva. The nature of the process by which this change takes place has long been a puzzle to scientists. For the making of a butterfly is one of the most wonderful phenomena in the outer world, and it has challenged the attention of many acute observers. Some two centuries ago the great Dutch naturalist, Swammerdam, studied very carefully the development of many insects, especially the butterfly. He found that if he placed in boiling water a caterpillar that was ready to pupate or become a chrysalis, the outer skin could easily be removed, revealing beneath the immature butterfly with well-developed legs and antennae. From these observations he was led to believe that the process of growth was simply a process of unfolding; that is, as Professor Packard has expressed it, "That the form of the larva, pupa, and imago preëxisted in the egg and even in the ovary; and that the insects in these stages were distinct animals, contained one inside the other, like a nest of boxes or a series of envelopes one within the other." This was called the incasement theory and it was held to be correct by naturalists for nearly a century. It was discredited, however, about a hundred years ago, but not until another fiftyyears had passed was it definitely replaced by another and much more convincing theory propounded by Weismann.
According to Weismann's theory, which is now well-established, the process of development internally is a much more continuous one than the external changes would indicate. So far as the latter are concerned we simply say that a caterpillar changes to a chrysalis and a chrysalis to a butterfly, the transition in each case requiring but a very short time. Internally, however, it has been going on almost continuously from the early life of the caterpillar. The various organs of the butterfly arise from certain germinal disks or "imaginal" buds, the word "imaginal" in this case being an adjective form of imago, so that the imaginal buds are really simply buds for the starting of growth of the various organs of the imago or adult. As the caterpillars approach the chrysalis period these imaginal buds rapidly develop into the various organs of the butterfly. This process is helped along by the breaking down of many of the tissues of the larva, this broken-down tissue being then utilized for the production of the new organs. About the time the chrysalis is formed this breaking-down process becomes very general, so that the newly formed chrysalis seems largely a mass of creamy material which is soon used to build up the various parts of the butterfly through the growth of the imaginal buds.
The Change to the Butterfly(See plate,pages 32-33.)
There is probably no phenomenon in the world of living creatures which has attracted more attention than the change of the chrysalis into the butterfly. It is not strange that this is so. We see upon a tree or shrub or wallan inert, apparently lifeless object, having no definite form with which we can compare it with other things, having neither eyes nor ears nor wings nor legs—an object apparently of as little interest as a lifeless piece of rock. A few minutes later we behold it again and note with astonishment that this apparently inanimate being has been suddenly transformed into the most ethereal of the creatures of earth, with an exquisite beauty that cannot fail to attract admiration, with wings of most delicate structure for flying through the air, with eyes of a thousand facets, with organs of smell that baffle the ingenuity of man to explain, with vibrant antennae, and a slender tongue adapted to feeding upon the nectar of flowers—the most ambrosial of natural food. So it is not strange that this emergence of a butterfly has long been the theme both of poets and theologians and that it attracts the admiring attention of childhood, youth, and age.
Fortunately, this change from chrysalis to butterfly may readily be observed by any one who will take a little trouble to rear the caterpillars or to watch chrysalids found outdoors. The precise method of eclosion, as we call this new kind of "hatching," varies somewhat with different species but in general the process is similar in all.
Those chrysalids which have a light colored outer skin are especially desirable if we would watch this process. One can see through the semi-transparent membrane the developing butterfly within, until finally, just before it is ready to break out, the markings of the wings and body show distinctly. If at this time the chrysalis is placed in the sunshine it is likely to come out at once, so that you can observe it readily. It usually breaks apart over the headand the newly released legs quickly grasp hold of the empty skin as well as of the support to which it is attached. It then hangs downward with a very large abdomen and with the wings more or less crumpled up, but decidedly larger than when they were confined within the chrysalis. The wings, however, soon begin to lengthen as they are stretched out, probably through the filling of the space by the body juices. Commonly, the hind pair of wings become full size before the front ones. In a short time the wings attain their full size, the abdomen becomes smaller, through the discharge of a liquid called meconium, and the butterfly is likely to walk a few steps to a better position where it will rest quietly for an hour or two while body and wing tissues harden. After this it is likely to fly away to lead the free life of a butterfly. (See plate,page 16.)
These changes from larva to chrysalis and from chrysalis to adult in the case of the Monarch Butterfly are illustrated on the plates oppositepages 32-33. A little study of these photographs from life will help greatly to an understanding of the process.
Some very interesting observations have been made by Mr. J. Alston Moffat upon the method of the expansion of the wings. In summarizing his investigations he writes:
"When a wing is fully expanded, and for an hour or two after, the membranes can be easily separated. Entrance for a pin-point between them is to be found at the base of the wing where the subcostal and median nervures come close together. The membranes are united at the costal and inner edges, which have to be cut to get them apart; but they are free at the outer angle. At that time the nervures are in two parts, half in one membrane and halfin the other, and open in the centre. The fluid which has been stored up in the pupa enters the winglet at the opening referred to, expanding the membranes as it passes along between them, and the nervures at the same time, and when it has extended to every portion of the wing, then it is fully expanded. The expanding fluid is of a gummy consistency, and as it dries, cements the membranes together, also the edges of the half-nervures, and produces the hollow tubes with which we are so familiar."